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// Copyright 2023 The Dawn & Tint Authors
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "src/tint/lang/spirv/writer/common/option_builder.h"
#include "src/tint/utils/containers/hashset.h"
namespace tint::spirv::writer {
bool ValidateBindingOptions(const Options& options, diag::List& diagnostics) {
tint::Hashmap<tint::BindingPoint, binding::BindingInfo, 8> seen_wgsl_bindings{};
tint::Hashmap<binding::BindingInfo, tint::BindingPoint, 8> seen_spirv_bindings{};
// Both wgsl_seen and spirv_seen check to see if the pair of [src, dst] are unique. If we have
// multiple entries that map the same [src, dst] pair, that's fine. We treat it as valid as it's
// possible for multiple entry points to use the remapper at the same time. If the pair doesn't
// match, then we report an error about a duplicate binding point.
auto wgsl_seen = [&diagnostics, &seen_wgsl_bindings](const tint::BindingPoint& src,
const binding::BindingInfo& dst) -> bool {
if (auto binding = seen_wgsl_bindings.Find(src)) {
if (*binding != dst) {
std::stringstream str;
str << "found duplicate WGSL binding point: " << src;
diagnostics.add_error(diag::System::Writer, str.str());
return true;
}
}
seen_wgsl_bindings.Add(src, dst);
return false;
};
auto spirv_seen = [&diagnostics, &seen_spirv_bindings](const binding::BindingInfo& src,
const tint::BindingPoint& dst) -> bool {
if (auto binding = seen_spirv_bindings.Find(src)) {
if (*binding != dst) {
std::stringstream str;
str << "found duplicate SPIR-V binding point: [group: " << src.group
<< ", binding: " << src.binding << "]";
diagnostics.add_error(diag::System::Writer, str.str());
return true;
}
}
seen_spirv_bindings.Add(src, dst);
return false;
};
auto valid = [&wgsl_seen, &spirv_seen](const auto& hsh) -> bool {
for (const auto& it : hsh) {
const auto& src_binding = it.first;
const auto& dst_binding = it.second;
if (wgsl_seen(src_binding, dst_binding)) {
return false;
}
if (spirv_seen(dst_binding, src_binding)) {
return false;
}
}
return true;
};
if (!valid(options.bindings.uniform)) {
diagnostics.add_note(diag::System::Writer, "when processing uniform", {});
return false;
}
if (!valid(options.bindings.storage)) {
diagnostics.add_note(diag::System::Writer, "when processing storage", {});
return false;
}
if (!valid(options.bindings.texture)) {
diagnostics.add_note(diag::System::Writer, "when processing texture", {});
return false;
}
if (!valid(options.bindings.storage_texture)) {
diagnostics.add_note(diag::System::Writer, "when processing storage_texture", {});
return false;
}
if (!valid(options.bindings.sampler)) {
diagnostics.add_note(diag::System::Writer, "when processing sampler", {});
return false;
}
for (const auto& it : options.bindings.external_texture) {
const auto& src_binding = it.first;
const auto& plane0 = it.second.plane0;
const auto& plane1 = it.second.plane1;
const auto& metadata = it.second.metadata;
// Validate with the actual source regardless of what the remapper will do
if (wgsl_seen(src_binding, plane0)) {
diagnostics.add_note(diag::System::Writer, "when processing external_texture", {});
return false;
}
if (spirv_seen(plane0, src_binding)) {
diagnostics.add_note(diag::System::Writer, "when processing external_texture", {});
return false;
}
if (spirv_seen(plane1, src_binding)) {
diagnostics.add_note(diag::System::Writer, "when processing external_texture", {});
return false;
}
if (spirv_seen(metadata, src_binding)) {
diagnostics.add_note(diag::System::Writer, "when processing external_texture", {});
return false;
}
}
return true;
}
// The remapped binding data and external texture data need to coordinate in order to put things in
// the correct place when we're done.
//
// When the data comes in we have a list of all WGSL origin (group,binding) pairs to SPIR-V
// (group,binding) pairs in the `uniform`, `storage`, `texture`, and `sampler` arrays.
//
// The `external_texture` array stores a WGSL origin (group,binding) pair for the external textures
// which provide `plane0`, `plane1`, and `metadata` SPIR-V (group,binding) pairs.
//
// If the remapper is run first, then the `external_texture` will end up being moved from the WGSL
// point, or the SPIR-V point (or the `plane0` value). There will also, possibly, have been bindings
// moved aside in order to place the `external_texture` bindings.
//
// If multiplanar runs first, care needs to be taken that when the texture is split and we create
// `plane1` and `metadata` that they do not collide with existing bindings. If they would collide
// then we need to place them elsewhere and have the remapper place them in the correct locations.
//
// # Example
// WGSL:
// @group(0) @binding(0) var<uniform> u: Uniforms;
// @group(0) @binding(1) var s: sampler;
// @group(0) @binding(2) var t: texture_external;
//
// Given that program, Dawn may decide to do the remappings such that:
// * WGSL u (0, 0) -> SPIR-V (0, 1)
// * WGSL s (0, 1) -> SPIR-V (0, 2)
// * WGSL t (0, 2):
// * plane0 -> SPIR-V (0, 3)
// * plane1 -> SPIR-V (0, 4)
// * metadata -> SPIR-V (0, 0)
//
// In this case, if we run binding remapper first, then tell multiplanar to look for the texture at
// (0, 3) instead of the original (0, 2).
//
// If multiplanar runs first, then metadata (0, 0) needs to be placed elsewhere and then remapped
// back to (0, 0) by the remapper. (Otherwise, we'll have two `@group(0) @binding(0)` items in the
// program.)
//
// # Status
// The below method assumes we run binding remapper first. So it will setup the binding data and
// switch the value used by the multiplanar.
void PopulateRemapperAndMultiplanarOptions(const Options& options,
RemapperData& remapper_data,
ExternalTextureOptions& external_texture) {
auto create_remappings = [&remapper_data](const auto& hsh) {
for (const auto& it : hsh) {
const BindingPoint& src_binding_point = it.first;
const binding::Uniform& dst_binding_point = it.second;
// Bindings which go to the same slot in SPIR-V do not need to be re-bound.
if (src_binding_point.group == dst_binding_point.group &&
src_binding_point.binding == dst_binding_point.binding) {
continue;
}
remapper_data.emplace(src_binding_point,
BindingPoint{dst_binding_point.group, dst_binding_point.binding});
}
};
create_remappings(options.bindings.uniform);
create_remappings(options.bindings.storage);
create_remappings(options.bindings.texture);
create_remappings(options.bindings.storage_texture);
create_remappings(options.bindings.sampler);
// External textures are re-bound to their plane0 location
for (const auto& it : options.bindings.external_texture) {
const BindingPoint& src_binding_point = it.first;
const binding::BindingInfo& plane0 = it.second.plane0;
const binding::BindingInfo& plane1 = it.second.plane1;
const binding::BindingInfo& metadata = it.second.metadata;
BindingPoint plane0_binding_point{plane0.group, plane0.binding};
BindingPoint plane1_binding_point{plane1.group, plane1.binding};
BindingPoint metadata_binding_point{metadata.group, metadata.binding};
// Use the re-bound spir-v plane0 value for the lookup key.
external_texture.bindings_map.emplace(
plane0_binding_point,
ExternalTextureOptions::BindingPoints{plane1_binding_point, metadata_binding_point});
// Bindings which go to the same slot in SPIR-V do not need to be re-bound.
if (src_binding_point.group == plane0.group &&
src_binding_point.binding == plane0.binding) {
continue;
}
remapper_data.emplace(src_binding_point, BindingPoint{plane0.group, plane0.binding});
}
}
} // namespace tint::spirv::writer
namespace std {
/// Custom std::hash specialization for tint::spirv::writer::binding::BindingInfo so
/// they can be used as keys for std::unordered_map and std::unordered_set.
template <>
class hash<tint::spirv::writer::binding::BindingInfo> {
public:
/// @param info the binding to create a hash for
/// @return the hash value
inline std::size_t operator()(const tint::spirv::writer::binding::BindingInfo& info) const {
return tint::Hash(info.group, info.binding);
}
};
} // namespace std