quakeforge/libs/video/renderer/vulkan/vkparse.c

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/*
vkparse.c
Parser for scripted vulkan structs
Copyright (C) 2020 Bill Currie <bill@taniwha.org>
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_MATH_H
# include <math.h>
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include "QF/cexpr.h"
#include "QF/cmem.h"
#include "QF/cvar.h"
#include "QF/dstring.h"
#include "QF/hash.h"
#include "QF/input.h"
#include "QF/mathlib.h"
#include "QF/plist.h"
#include "QF/qargs.h"
#include "QF/quakefs.h"
#include "QF/sys.h"
#include "QF/va.h"
#include "QF/vid.h"
#include "QF/simd/vec4f.h"
#include "QF/Vulkan/qf_vid.h"
#include "QF/Vulkan/descriptor.h"
#include "QF/Vulkan/debug.h"
#include "QF/Vulkan/device.h"
#include "QF/Vulkan/command.h"
#include "QF/Vulkan/instance.h"
#include "QF/Vulkan/image.h"
#include "QF/Vulkan/pipeline.h"
#include "QF/Vulkan/renderpass.h"
#include "QF/Vulkan/shader.h"
#include "QF/Vulkan/swapchain.h"
#include "compat.h"
#include "d_iface.h"
#include "r_internal.h"
#include "vid_vulkan.h"
#include "util.h"
#define vkparse_internal
#include "vkparse.h"
#undef vkparse_internal
static void flag_or (const exprval_t *val1, const exprval_t *val2,
exprval_t *result, exprctx_t *ctx)
{
*(int *) (result->value) = *(int *) (val1->value) | *(int *) (val2->value);
}
static void flag_and (const exprval_t *val1, const exprval_t *val2,
exprval_t *result, exprctx_t *ctx)
{
*(int *) (result->value) = *(int *) (val1->value) & *(int *) (val2->value);
}
static void flag_cast_int (const exprval_t *val1, const exprval_t *val2,
exprval_t *result, exprctx_t *ctx)
{
// FIXME should check value is valid
*(int *) (result->value) = *(int *) (val2->value);
}
static void flag_not (const exprval_t *val, exprval_t *result, exprctx_t *ctx)
{
*(int *) (result->value) = ~(*(int *) (val->value));
}
binop_t flag_binops[] = {
{ '|', 0, 0, flag_or },
{ '&', 0, 0, flag_and },
{ '=', &cexpr_int, 0, flag_cast_int },
{ '=', &cexpr_plitem, 0, cexpr_cast_plitem },
{}
};
binop_t enum_binops[] = {
{ '=', &cexpr_plitem, 0, cexpr_cast_plitem },
{}
};
unop_t flag_unops[] = {
{ '~', 0, flag_not },
{}
};
typedef struct parse_single_s {
pltype_t type;
size_t stride;
plparser_t parser;
size_t value_offset;
} parse_single_t;
typedef struct parse_array_s {
pltype_t type;
size_t stride;
plparser_t parser;
size_t value_offset;
size_t size_offset;
} parse_array_t;
typedef struct parse_data_s {
size_t value_offset;
size_t size_offset;
} parse_data_t;
typedef struct parse_string_s {
size_t value_offset;
} parse_string_t;
typedef struct parse_custom_s {
int (*parse) (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context);
size_t *offsets;
size_t num_offsets;
} parse_custom_t;
2020-12-24 00:58:27 +00:00
static int
parse_basic (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
int ret = 1;
__auto_type etype = (exprtype_t *) field->data;
exprctx_t ectx = *((parsectx_t *) context)->ectx;
exprval_t result = { etype, data };
ectx.symtab = 0;
ectx.result = &result;
const char *valstr = PL_String (item);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_basic: %s %zd %d %p %p: %s\n",
// field->name, field->offset, field->type, field->parser,
// field->data, valstr);
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if (strcmp (valstr, "VK_SUBPASS_EXTERNAL") == 0) {
//FIXME handle subpass in a separate parser?
*(uint32_t *) data = VK_SUBPASS_EXTERNAL;
} else {
ret = !cexpr_eval_string (valstr, &ectx);
if (!ret) {
PL_Message (messages, item, "error parsing %s: %s",
field->name, valstr);
}
2020-12-24 00:58:27 +00:00
}
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %x\n", *(uint32_t *)data);
2020-12-24 00:58:27 +00:00
return ret;
}
static int
parse_uint32_t (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
int ret = 1;
// use size_t (and cexpr_size_t) for val so references to array sizes
// can be used
size_t val = 0;
exprval_t result = { &cexpr_size_t, &val };
exprctx_t ectx = *((parsectx_t *) context)->ectx;
2020-12-24 00:58:27 +00:00
ectx.symtab = 0;
ectx.result = &result;
const char *valstr = PL_String (item);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_uint32_t: %s %zd %d %p %p: %s\n",
// field->name, field->offset, field->type, field->parser,
// field->data, valstr);
if (strcmp (valstr, "VK_SUBPASS_EXTERNAL") == 0) {
2020-12-24 00:58:27 +00:00
//FIXME handle subpass in a separate parser?
*(uint32_t *) data = VK_SUBPASS_EXTERNAL;
} else {
//Sys_MaskPrintf (SYS_VULKAN_PARSE,
// "parse_uint32_t: %s %zd %d %p %p %s\n",
// field->name, field->offset, field->type, field->parser,
// field->data, valstr);
2020-12-24 00:58:27 +00:00
ret = !cexpr_eval_string (valstr, &ectx);
if (!ret) {
PL_Message (messages, item, "error parsing %s: %s",
field->name, valstr);
}
*(uint32_t *) data = val;
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %d\n", *(uint32_t *)data);
}
return ret;
}
static int
parse_enum (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
int ret = 1;
__auto_type enm = (exprenum_t *) field->data;
exprctx_t ectx = *((parsectx_t *)context)->ectx;
exprval_t result = { enm->type, data };
ectx.symtab = enm->symtab;
ectx.result = &result;
const char *valstr = PL_String (item);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_enum: %s %zd %d %p %p %s\n",
// field->name, field->offset, field->type, field->parser,
// field->data, valstr);
ret = !cexpr_parse_enum (enm, valstr, &ectx, data);
if (!ret) {
PL_Message (messages, item, "error parsing enum: %s", valstr);
}
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %d\n", *(int *)data);
return ret;
}
static const plitem_t *
parse_reference (const plitem_t *item, const char *type, plitem_t *messages,
parsectx_t *pctx)
{
exprctx_t ectx = *pctx->ectx;
vulkan_ctx_t *ctx = pctx->vctx;
plitem_t *refItem = 0;
exprval_t result = { &cexpr_plitem, &refItem };
ectx.symtab = 0;
ectx.result = &result;
const char *name = PL_String (item);
if (cexpr_eval_string (name, &ectx)) {
PL_Message (messages, item, va (ctx->va_ctx, "not a %s reference", type));
return 0;
}
return refItem;
}
static void *
vkparse_alloc (void *context, size_t size)
{
parsectx_t *pctx = context;
return cmemalloc (pctx->ectx->memsuper, size);
}
static int
parse_single (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type single = (parse_single_t *) field->data;
void *flddata = (byte *)data + single->value_offset;
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_single: %s %zd %d %p %p\n",
// field->name, field->offset,
// field->type, field->parser, field->data);
if (!PL_CheckType (single->type, PL_Type (item))) {
PL_TypeMismatch (messages, item, field->name, single->type,
PL_Type (item));
return 0;
}
plfield_t f = { 0, 0, single->type, single->parser, 0 };
void *value = vkparse_alloc (context, single->stride);
memset (value, 0, single->stride);
if (!single->parser (&f, item, value, messages, context)) {
return 0;
}
*(void **) flddata = value;
return 1;
}
static int
parse_array (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type array = (parse_array_t *) field->data;
__auto_type value = (void **) ((byte *)data + array->value_offset);
__auto_type size = (uint32_t *) ((byte *)data + array->size_offset);
plelement_t element = {
array->type,
array->stride,
vkparse_alloc,
array->parser,
0,
};
plfield_t f = { 0, 0, 0, 0, &element };
typedef struct arr_s DARRAY_TYPE(byte) arr_t;
arr_t *arr;
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_array: %s %zd %d %p %p %p\n",
// field->name, field->offset, field->type, field->parser,
// field->data, data);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %d %zd %p %zd %zd\n", array->type,
// array->stride, array->parser, array->value_offset,
// array->size_offset);
if (!PL_ParseArray (&f, item, &arr, messages, context)) {
return 0;
}
*value = vkparse_alloc (context, array->stride * arr->size);
memcpy (*value, arr->a, array->stride * arr->size);
if ((void *) size >= data) {
*size = arr->size;
}
return 1;
}
static int
parse_data (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type datad = (parse_data_t *) field->data;
__auto_type value = (void **) ((byte *)data + datad->value_offset);
__auto_type size = (size_t *) ((byte *)data + datad->size_offset);
const void *bindata = PL_BinaryData (item);
size_t binsize = PL_BinarySize (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_data: %s %zd %d %p %p %p\n",
field->name, field->offset, field->type, field->parser,
field->data, data);
Sys_MaskPrintf (SYS_VULKAN_PARSE, " %zd %zd\n", datad->value_offset,
datad->size_offset);
Sys_MaskPrintf (SYS_VULKAN_PARSE, " %zd %p\n", binsize, bindata);
*value = vkparse_alloc (context, binsize);
memcpy (*value, bindata, binsize);
if ((void *) size > data) {
*size = binsize;
}
return 1;
}
static int
parse_string (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type string = (parse_string_t *) field->data;
__auto_type value = (char **) ((byte *)data + string->value_offset);
const char *str = PL_String (item);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_string: %s %zd %d %p %p %p\n",
// field->name, field->offset, field->type, field->parser,
// field->data, data);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %zd\n", string->value_offset);
//Sys_MaskPrintf (SYS_VULKAN_PARSE, " %s\n", str);
size_t len = strlen (str) + 1;
*value = vkparse_alloc (context, len);
memcpy (*value, str, len);
return 1;
}
static int
parse_custom (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type custom = (parse_custom_t *) field->data;
void **offsets = alloca (custom->num_offsets * sizeof (void *));
for (size_t i = 0; i < custom->num_offsets; i++) {
offsets[i] = data + custom->offsets[i];
}
return custom->parse (item, offsets, messages, context);
}
static int
parse_RGBA (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context)
{
int ret = 1;
exprctx_t ectx = *context->ectx;
exprval_t result = { &cexpr_vector, data[0] };
ectx.symtab = 0;
ectx.result = &result;
const char *valstr = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_RGBA: %s\n", valstr);
ret = !cexpr_eval_string (valstr, &ectx);
Sys_MaskPrintf (SYS_VULKAN_PARSE, " "VEC4F_FMT"\n",
VEC4_EXP (*(vec4f_t *)data[0]));
return ret;
}
uint64_t
QFV_GetHandle (hashtab_t *tab, const char *name)
{
handleref_t *hr = Hash_Find (tab, name);
if (hr) {
return hr->handle;
}
return 0;
}
void
QFV_AddHandle (hashtab_t *tab, const char *name, uint64_t handle)
{
handleref_t *hr = malloc (sizeof (handleref_t));
hr->name = strdup (name);
hr->handle = handle;
Hash_Add (tab, hr);
}
static int
parse_VkRenderPass (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context)
{
__auto_type handle = (VkRenderPass *) data[0];
int ret = 1;
parsectx_t *pctx = context;
exprctx_t ectx = *pctx->ectx;
vulkan_ctx_t *ctx = pctx->vctx;
const char *name = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_VkRenderPass: %s\n", name);
if (name[0] != '$') {
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".%s", name);
}
*handle = (VkRenderPass) QFV_GetHandle (ctx->renderpasses, name);
if (*handle) {
return 1;
}
plitem_t *setItem = 0;
exprval_t result = { &cexpr_plitem, &setItem };
ectx.symtab = 0;
ectx.result = &result;
ret = !cexpr_eval_string (name, &ectx);
if (ret) {
VkRenderPass setLayout;
setLayout = QFV_ParseRenderPass (ctx, setItem, pctx->properties);
*handle = (VkRenderPass) setLayout;
QFV_AddHandle (ctx->setLayouts, name, (uint64_t) setLayout);
}
return ret;
}
static int
parse_VkShaderModule (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context)
{
__auto_type handle = (VkShaderModule *) data[0];
vulkan_ctx_t *ctx = context->vctx;
qfv_device_t *device = ctx->device;
const char *name = PL_String (item);
*handle = (VkShaderModule) QFV_GetHandle (ctx->shaderModules, name);
if (*handle) {
return 1;
}
if (!(*handle = QFV_CreateShaderModule (device, name))) {
PL_Message (messages, item, "could not find shader %s", name);
return 0;
}
QFV_AddHandle (ctx->shaderModules, name, (uint64_t) *handle);
return 1;
}
static int
parse_VkDescriptorSetLayout (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
__auto_type handle = (VkDescriptorSetLayout *) data;
int ret = 1;
parsectx_t *pctx = context;
exprctx_t ectx = *pctx->ectx;
vulkan_ctx_t *ctx = pctx->vctx;
const char *name = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_VkDescriptorSetLayout: %s\n",
name);
if (name[0] != '$') {
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".setLayouts.%s", name);
}
*handle = (VkDescriptorSetLayout) QFV_GetHandle (ctx->setLayouts, name);
if (*handle) {
return 1;
}
plitem_t *setItem = 0;
exprval_t result = { &cexpr_plitem, &setItem };
ectx.symtab = 0;
ectx.result = &result;
ret = !cexpr_eval_string (name, &ectx);
if (ret) {
VkDescriptorSetLayout setLayout;
setLayout = QFV_ParseDescriptorSetLayout (ctx, setItem,
pctx->properties);
*handle = (VkDescriptorSetLayout) setLayout;
QFV_AddHandle (ctx->setLayouts, name, (uint64_t) setLayout);
}
return ret;
}
static int
parse_VkPipelineLayout (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context)
{
__auto_type handle = (VkPipelineLayout *) data[0];
int ret = 1;
exprctx_t ectx = *context->ectx;
vulkan_ctx_t *ctx = context->vctx;
const char *name = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_VkPipelineLayout: %s\n", name);
if (name[0] != '$') {
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".pipelineLayouts.%s", name);
}
*handle = (VkPipelineLayout) QFV_GetHandle (ctx->pipelineLayouts, name);
if (*handle) {
return 1;
}
plitem_t *setItem = 0;
exprval_t result = { &cexpr_plitem, &setItem };
ectx.symtab = 0;
ectx.result = &result;
ret = !cexpr_eval_string (name, &ectx);
if (ret) {
VkPipelineLayout layout;
layout = QFV_ParsePipelineLayout (ctx, setItem, context->properties);
*handle = (VkPipelineLayout) layout;
QFV_AddHandle (ctx->pipelineLayouts, name, (uint64_t) layout);
}
return ret;
}
static int
parse_VkImage (const plitem_t *item, void **data, plitem_t *messages,
parsectx_t *context)
{
__auto_type handle = (VkImage *) data[0];
int ret = 1;
exprctx_t ectx = *context->ectx;
vulkan_ctx_t *ctx = context->vctx;
const char *name = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_VkImage: %s\n", name);
if (name[0] != '$') {
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".images.%s", name);
}
*handle = (VkImage) QFV_GetHandle (ctx->images, name);
if (*handle) {
return 1;
}
plitem_t *imageItem = 0;
exprval_t result = { &cexpr_plitem, &imageItem };
ectx.symtab = 0;
ectx.result = &result;
ret = !cexpr_eval_string (name, &ectx);
if (ret) {
VkImage image;
image = QFV_ParseImage (ctx, imageItem, context->properties);
*handle = (VkImage) image;
QFV_AddHandle (ctx->images, name, (uint64_t) image);
}
return ret;
}
static exprtype_t imageview_type = {
"VkImageView",
sizeof (VkImageView),
0, 0, 0
};
static int
parse_VkImageView (const plfield_t *field, const plitem_t *item, void *data,
plitem_t *messages, void *_context)
{
parsectx_t *context = _context;
__auto_type handle = (VkImageView *) data;
int ret = 1;
exprctx_t ectx = *context->ectx;
vulkan_ctx_t *ctx = context->vctx;
const char *name = PL_String (item);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "parse_VkImageView: %s\n", name);
if (name[0] != '$') {
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".imageViews.%s", name);
}
*handle = (VkImageView) QFV_GetHandle (ctx->imageViews, name);
if (*handle) {
return 1;
}
exprval_t *value = 0;
exprval_t result = { &cexpr_exprval, &value };
ectx.symtab = 0;
ectx.result = &result;
ret = !cexpr_eval_string (name, &ectx);
plitem_t *imageViewItem = 0;
if (ret) {
VkImageView imageView;
if (value->type == &imageview_type) {
imageView = *(VkImageView *) value->value;
} else if (value->type == &cexpr_plitem) {
imageView = QFV_ParseImageView (ctx, imageViewItem,
context->properties);
QFV_AddHandle (ctx->imageViews, name, (uint64_t) imageView);
} else {
PL_Message (messages, item, "not a VkImageView");
return 0;
}
*handle = (VkImageView) imageView;
}
return ret;
}
static const char *
handleref_getkey (const void *hr, void *unused)
{
return ((handleref_t *)hr)->name;
}
static void
handleref_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
free (handleref->name);
free (handleref);
}
static void
setLayout_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type layout = (VkDescriptorSetLayout) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (layout) {
dfunc->vkDestroyDescriptorSetLayout (device->dev, layout, 0);
}
handleref_free (handleref, ctx);
}
static void
shaderModule_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type module = (VkShaderModule) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (module) {
dfunc->vkDestroyShaderModule (device->dev, module, 0);
}
handleref_free (handleref, ctx);
}
static void
pipelineLayout_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type layout = (VkPipelineLayout) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (layout) {
dfunc->vkDestroyPipelineLayout (device->dev, layout, 0);
};
handleref_free (handleref, ctx);
}
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static void
descriptorPool_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type pool = (VkDescriptorPool) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (pool) {
dfunc->vkDestroyDescriptorPool (device->dev, pool, 0);
};
handleref_free (handleref, ctx);
}
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static void
sampler_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type sampler = (VkSampler) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (sampler) {
dfunc->vkDestroySampler (device->dev, sampler, 0);
};
handleref_free (handleref, ctx);
}
static void
image_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type image = (VkImage) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (image) {
dfunc->vkDestroyImage (device->dev, image, 0);
};
handleref_free (handleref, ctx);
}
static void
imageView_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type imageView = (VkImageView) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (imageView) {
dfunc->vkDestroyImageView (device->dev, imageView, 0);
};
handleref_free (handleref, ctx);
}
static void
renderpass_free (void *hr, void *_ctx)
{
__auto_type handleref = (handleref_t *) hr;
__auto_type renderpass = (VkRenderPass) handleref->handle;
__auto_type ctx = (vulkan_ctx_t *) _ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
if (renderpass) {
dfunc->vkDestroyRenderPass (device->dev, renderpass, 0);
};
handleref_free (handleref, ctx);
}
static hashtab_t *enum_symtab;
static int
parse_BasePipeline (const plitem_t *item, void **data,
plitem_t *messages, parsectx_t *context)
{
*(VkPipeline *) data = 0;
PL_Message (messages, item, "not implemented");
return 0;
}
#include "libs/video/renderer/vulkan/vkparse.cinc"
static void
imageviewset_index (const exprval_t *a, size_t index, exprval_t *c,
exprctx_t *ctx)
{
__auto_type set = *(qfv_imageviewset_t **) a->value;
exprval_t *val = 0;
if (index >= set->size) {
cexpr_error (ctx, "invalid index: %zd", index);
} else {
val = cexpr_value (&imageview_type, ctx);
*(VkImageView *) val->value = set->a[index];
}
*(exprval_t **) c->value = val;
}
static void
imageviewset_int (const exprval_t *a, const exprval_t *b, exprval_t *c,
exprctx_t *ctx)
{
size_t index = *(int *) b->value;
imageviewset_index (a, index, c, ctx);
}
static void
imageviewset_uint (const exprval_t *a, const exprval_t *b, exprval_t *c,
exprctx_t *ctx)
{
size_t index = *(unsigned *) b->value;
imageviewset_index (a, index, c, ctx);
}
static void
imageviewset_size_t (const exprval_t *a, const exprval_t *b, exprval_t *c,
exprctx_t *ctx)
{
size_t index = *(size_t *) b->value;
imageviewset_index (a, index, c, ctx);
}
binop_t imageviewset_binops[] = {
{ '.', &cexpr_field, &cexpr_exprval, cexpr_struct_pointer_getfield },
{ '[', &cexpr_int, &imageview_type, imageviewset_int },
{ '[', &cexpr_uint, &imageview_type, imageviewset_uint },
{ '[', &cexpr_size_t, &imageview_type, imageviewset_size_t },
{}
};
static exprsym_t imageviewset_symbols[] = {
{"size", &cexpr_size_t, (void *)field_offset (qfv_imageviewset_t, size)},
{ }
};
static exprtab_t imageviewset_symtab = {
imageviewset_symbols,
};
exprtype_t imageviewset_type = {
"imageviewset",
sizeof (qfv_imageviewset_t *),
imageviewset_binops,
0,
&imageviewset_symtab,
};
static exprsym_t qfv_swapchain_t_symbols[] = {
{"format", &VkFormat_type, (void *)field_offset (qfv_swapchain_t, format)},
{"extent", &VkExtent2D_type, (void *)field_offset (qfv_swapchain_t, extent)},
{"views", &imageviewset_type, (void *)field_offset (qfv_swapchain_t, imageViews)},
{ }
};
static exprtab_t qfv_swapchain_t_symtab = {
qfv_swapchain_t_symbols,
};
exprtype_t qfv_swapchain_t_type = {
"qfv_swapchain_t",
sizeof (qfv_swapchain_t),
cexpr_struct_binops,
0,
&qfv_swapchain_t_symtab,
};
static exprsym_t vulkan_frameset_t_symbols[] = {
{"size", &cexpr_size_t, (void *)field_offset (vulkan_frameset_t, size)},
{ }
};
static exprtab_t vulkan_frameset_t_symtab = {
vulkan_frameset_t_symbols,
};
exprtype_t vulkan_frameset_t_type = {
"frameset",
sizeof (vulkan_frameset_t *),
cexpr_struct_binops,
0,
&vulkan_frameset_t_symtab,
};
typedef struct qfv_renderpass_s {
qfv_attachmentdescription_t *attachments;
qfv_subpassparametersset_t *subpasses;
qfv_subpassdependency_t *dependencies;
} qfv_renderpass_t;
static plelement_t parse_qfv_renderpass_attachments_data = {
QFDictionary,
sizeof (VkAttachmentDescription),
vkparse_alloc,
parse_VkAttachmentDescription,
0,
};
static plelement_t parse_qfv_renderpass_subpasses_data = {
QFDictionary,
sizeof (VkSubpassDescription),
vkparse_alloc,
parse_VkSubpassDescription,
0,
};
static plelement_t parse_qfv_renderpass_dependencies_data = {
QFDictionary,
sizeof (VkSubpassDependency),
vkparse_alloc,
parse_VkSubpassDependency,
0,
};
static plfield_t renderpass_fields[] = {
{ "attachments", field_offset (qfv_renderpass_t, attachments), QFArray,
PL_ParseArray, &parse_qfv_renderpass_attachments_data },
{ "subpasses", field_offset (qfv_renderpass_t, subpasses), QFArray,
PL_ParseArray, &parse_qfv_renderpass_subpasses_data },
{ "dependencies", field_offset (qfv_renderpass_t, dependencies), QFArray,
PL_ParseArray, &parse_qfv_renderpass_dependencies_data },
{}
};
2021-01-10 06:50:24 +00:00
static hashtab_t *
handlref_symtab (void (*free_func)(void*,void*), vulkan_ctx_t *ctx)
{
return Hash_NewTable (23, handleref_getkey, free_func,
ctx, &ctx->hashlinks);
}
static const char *
enum_symtab_getkey (const void *e, void *unused)
{
__auto_type enm = (const exprenum_t *) e;
return enm->type->name;
}
void
QFV_InitParse (vulkan_ctx_t *ctx)
{
exprctx_t context = {};
enum_symtab = Hash_NewTable (61, enum_symtab_getkey, 0, 0,
&ctx->hashlinks);
context.hashlinks = &ctx->hashlinks;
vkgen_init_symtabs (&context);
cexpr_init_symtab (&qfv_swapchain_t_symtab, &context);
cexpr_init_symtab (&vulkan_frameset_t_symtab, &context);
cexpr_init_symtab (&imageviewset_symtab, &context);
if (!ctx->setLayouts) {
ctx->shaderModules = handlref_symtab (shaderModule_free, ctx);
ctx->setLayouts = handlref_symtab (setLayout_free, ctx);
ctx->pipelineLayouts = handlref_symtab (pipelineLayout_free, ctx);
ctx->descriptorPools = handlref_symtab (descriptorPool_free, ctx);
ctx->samplers = handlref_symtab (sampler_free, ctx);
ctx->images = handlref_symtab (image_free, ctx);
ctx->imageViews = handlref_symtab (imageView_free, ctx);
ctx->renderpasses = handlref_symtab (renderpass_free, ctx);
}
}
exprenum_t *
QFV_GetEnum (const char *name)
{
return Hash_Find (enum_symtab, name);
}
static int
parse_object (vulkan_ctx_t *ctx, memsuper_t *memsuper, plitem_t *plist,
plparser_t parser, void *object, plitem_t *properties)
{
plitem_t *messages = PL_NewArray ();
exprctx_t exprctx = {};
parsectx_t parsectx = { &exprctx, ctx, properties };
exprsym_t var_syms[] = {
{"swapchain", &qfv_swapchain_t_type, ctx->swapchain},
{"frames", &vulkan_frameset_t_type, &ctx->frames},
{"msaaSamples", &VkSampleCountFlagBits_type, &ctx->msaaSamples},
{"swapImageIndex", &cexpr_uint, &ctx->swapImageIndex},
{QFV_PROPERTIES, &cexpr_plitem, &parsectx.properties},
{}
};
exprtab_t vars_tab = { var_syms, 0 };
exprctx.external_variables = &vars_tab;
exprctx.messages = messages;
exprctx.hashlinks = &ctx->hashlinks;
exprctx.memsuper = memsuper;
cexpr_init_symtab (&vars_tab, &exprctx);
if (!parser (0, plist, object, messages, &parsectx)) {
for (int i = 0; i < PL_A_NumObjects (messages); i++) {
Sys_MaskPrintf (SYS_VULKAN_PARSE, "%s\n",
PL_String (PL_ObjectAtIndex (messages, i)));
}
return 0;
}
Hash_DelTable (vars_tab.tab);
PL_Free (messages);
return 1;
}
static int
parse_qfv_renderpass (const plfield_t *field, const plitem_t *item, void *data,
plitem_t *messages, void *context)
{
return PL_ParseStruct (renderpass_fields, item, data, messages, context);
}
VkRenderPass
QFV_ParseRenderPass (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
memsuper_t *memsuper = new_memsuper ();
qfv_device_t *device = ctx->device;
qfv_renderpass_t renderpass_data = {};
if (!parse_object (ctx, memsuper, plist, parse_qfv_renderpass,
&renderpass_data, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkRenderPass renderpass;
renderpass = QFV_CreateRenderPass (device,
renderpass_data.attachments,
renderpass_data.subpasses,
renderpass_data.dependencies);
delete_memsuper (memsuper);
return renderpass;
}
VkPipeline
QFV_ParsePipeline (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
memsuper_t *memsuper = new_memsuper ();
qfv_device_t *device = ctx->device;
__auto_type cInfo = QFV_AllocGraphicsPipelineCreateInfoSet (1, alloca);
memset (&cInfo->a[0], 0, sizeof (cInfo->a[0]));
if (!parse_object (ctx, memsuper, plist, parse_VkGraphicsPipelineCreateInfo,
&cInfo->a[0], properties)) {
delete_memsuper (memsuper);
return 0;
}
cInfo->a[0].renderPass = ctx->renderpass;
__auto_type plSet = QFV_CreateGraphicsPipelines (device, 0, cInfo);
VkPipeline pipeline = plSet->a[0];
free (plSet);
delete_memsuper (memsuper);
return pipeline;
}
VkDescriptorPool
QFV_ParseDescriptorPool (vulkan_ctx_t *ctx, plitem_t *plist,
plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkDescriptorPoolCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkDescriptorPoolCreateInfo,
&cInfo, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkDescriptorPool pool;
dfunc->vkCreateDescriptorPool (device->dev, &cInfo, 0, &pool);
delete_memsuper (memsuper);
return pool;
}
VkDescriptorSetLayout
QFV_ParseDescriptorSetLayout (vulkan_ctx_t *ctx, plitem_t *plist,
plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkDescriptorSetLayoutCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist,
parse_VkDescriptorSetLayoutCreateInfo,
&cInfo, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkDescriptorSetLayout setLayout;
dfunc->vkCreateDescriptorSetLayout (device->dev, &cInfo, 0, &setLayout);
delete_memsuper (memsuper);
return setLayout;
}
VkPipelineLayout
QFV_ParsePipelineLayout (vulkan_ctx_t *ctx, plitem_t *plist,
plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkPipelineLayoutCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkPipelineLayoutCreateInfo,
&cInfo, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkPipelineLayout layout;
dfunc->vkCreatePipelineLayout (device->dev, &cInfo, 0, &layout);
delete_memsuper (memsuper);
return layout;
}
VkSampler
QFV_ParseSampler (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkSamplerCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkSamplerCreateInfo, &cInfo,
properties)) {
delete_memsuper (memsuper);
return 0;
}
VkSampler sampler;
dfunc->vkCreateSampler (device->dev, &cInfo, 0, &sampler);
delete_memsuper (memsuper);
return sampler;
}
VkImage
QFV_ParseImage (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkImageCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkImageCreateInfo, &cInfo,
properties)) {
delete_memsuper (memsuper);
return 0;
}
VkImage image;
dfunc->vkCreateImage (device->dev, &cInfo, 0, &image);
delete_memsuper (memsuper);
return image;
}
VkImageView
QFV_ParseImageView (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkImageViewCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkImageViewCreateInfo,
&cInfo, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkImageView imageView;
dfunc->vkCreateImageView (device->dev, &cInfo, 0, &imageView);
delete_memsuper (memsuper);
return imageView;
}
typedef struct {
uint32_t count;
VkImageCreateInfo *info;
} imagecreate_t;
typedef struct {
uint32_t count;
VkImageViewCreateInfo *info;
} imageviewcreate_t;
static plelement_t qfv_imagecreate_dict = {
QFDictionary,
sizeof (VkImageCreateInfo),
vkparse_alloc,
parse_VkImageCreateInfo,
};
static plelement_t qfv_imageviewcreate_dict = {
QFDictionary,
sizeof (VkImageViewCreateInfo),
vkparse_alloc,
parse_VkImageViewCreateInfo,
};
static int
parse_imagecreate_dict (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
plfield_t f = { "images", 0, QFArray, parse_array,
&qfv_imagecreate_dict };
typedef struct arr_s DARRAY_TYPE(byte) arr_t;
arr_t *arr = 0;
int ret;
if ((ret = PL_ParseLabeledArray (&f, item, &arr, messages, context))) {
imagecreate_t *imagecreate = data;
imagecreate->count = arr->size;
imagecreate->info = (VkImageCreateInfo *) arr->a;
}
return ret;
}
static int
parse_imageviewcreate_dict (const plfield_t *field, const plitem_t *item,
void *data, plitem_t *messages, void *context)
{
plfield_t f = { "images", 0, QFArray, parse_array,
&qfv_imageviewcreate_dict };
typedef struct arr_s DARRAY_TYPE(byte) arr_t;
arr_t *arr = 0;
int ret;
if ((ret = PL_ParseLabeledArray (&f, item, &arr, messages, context))) {
imageviewcreate_t *imageviewcreate = data;
imageviewcreate->count = arr->size;
imageviewcreate->info = (VkImageViewCreateInfo *) arr->a;
} else {
//FIXME leaky boat when succeeds
if (arr) {
free (arr);
}
}
return ret;
}
qfv_imageset_t *
QFV_ParseImageSet (vulkan_ctx_t *ctx, plitem_t *item, plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
imagecreate_t create = {};
pltype_t type = PL_Type (item);
if (type == QFDictionary) {
if (!parse_object (ctx, memsuper, item, parse_imagecreate_dict,
&create, properties)) {
delete_memsuper (memsuper);
return 0;
}
} else {
Sys_MaskPrintf (SYS_VULKAN_PARSE, "Neither array nor dictionary: %d\n",
PL_Line (item));
delete_memsuper (memsuper);
return 0;
}
__auto_type set = QFV_AllocImages (create.count, malloc);
for (uint32_t i = 0; i < create.count; i++) {
dfunc->vkCreateImage (device->dev, &create.info[i], 0, &set->a[i]);
const char *name = PL_KeyAtIndex (item, i);
QFV_duSetObjectName (device, VK_OBJECT_TYPE_IMAGE, set->a[i],
va (ctx->va_ctx, "image:%s", name));
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".images.%s", name);
QFV_AddHandle (ctx->images, name, (uint64_t) set->a[i]);
}
delete_memsuper (memsuper);
return set;
}
qfv_imageviewset_t *
QFV_ParseImageViewSet (vulkan_ctx_t *ctx, plitem_t *item,
plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
imageviewcreate_t create = {};
pltype_t type = PL_Type (item);
if (type == QFDictionary) {
if (!parse_object (ctx, memsuper, item, parse_imageviewcreate_dict,
&create, properties)) {
delete_memsuper (memsuper);
return 0;
}
} else {
Sys_Printf ("Neither array nor dictionary: %d\n", PL_Line (item));
delete_memsuper (memsuper);
return 0;
}
__auto_type set = QFV_AllocImageViews (create.count, malloc);
for (uint32_t i = 0; i < create.count; i++) {
dfunc->vkCreateImageView (device->dev, &create.info[i], 0, &set->a[i]);
const char *name = PL_KeyAtIndex (item, i);
name = va (ctx->va_ctx, "$"QFV_PROPERTIES".imageViews.%s", name);
QFV_AddHandle (ctx->imageViews, name, (uint64_t) set->a[i]);
}
delete_memsuper (memsuper);
return set;
}
VkFramebuffer
QFV_ParseFramebuffer (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
memsuper_t *memsuper = new_memsuper ();
VkFramebufferCreateInfo cInfo = {};
if (!parse_object (ctx, memsuper, plist, parse_VkFramebufferCreateInfo,
&cInfo, properties)) {
delete_memsuper (memsuper);
return 0;
}
VkFramebuffer framebuffer;
dfunc->vkCreateFramebuffer (device->dev, &cInfo, 0, &framebuffer);
Sys_MaskPrintf (SYS_VULKAN_PARSE, "framebuffer, renderPass: %p, %p\n",
framebuffer, cInfo.renderPass);
delete_memsuper (memsuper);
return framebuffer;
}
static int
parse_clearvalueset (const plfield_t *field, const plitem_t *item, void *data,
plitem_t *messages, void *context)
{
plelement_t element = {
QFDictionary,
sizeof (VkClearValue),
vkparse_alloc,
parse_VkClearValue,
0,
};
plfield_t f = { 0, 0, 0, 0, &element };
if (!PL_ParseArray (&f, item, data, messages, context)) {
return 0;
}
return 1;
}
int
QFV_ParseClearValues (vulkan_ctx_t *ctx, plitem_t *plist, plitem_t *properties)
{
int ret = 0;
memsuper_t *memsuper = new_memsuper ();
clearvalueset_t *clearValues = 0;
ctx->clearValues = 0;
if (parse_object (ctx, memsuper, plist, parse_clearvalueset, &clearValues,
properties)) {
ret = 1;
ctx->clearValues = DARRAY_ALLOCFIXED (clearvalueset_t,
clearValues->size, malloc);
memcpy (ctx->clearValues->a, clearValues->a,
clearValues->size * sizeof (clearValues->a[0]));
}
delete_memsuper (memsuper);
return ret;
}