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base: drinkingtea:46a7331754ac8f2a65f42317526e2b619330f357
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drinkingtea:master drinkingtea:david/clargs-refactor drinkingtea:release-d2025.07 drinkingtea:release-d2025.06 drinkingtea:release-d2025.05 drinkingtea:release-d2025.02 drinkingtea:release-d2024.12 drinkingtea:stable drinkingtea:release-d2024.05 drinkingtea:release-d2023.12
drinkingtea:release-d2025.07.0 drinkingtea:release-d2025.06.0 drinkingtea:release-d2025.05.1 drinkingtea:release-d2025.05.0 drinkingtea:release-d2025.02.1 drinkingtea:release-d2025.02.0 drinkingtea:release-d2024.12.4 drinkingtea:release-d2024.12.3 drinkingtea:release-d2024.12.2 drinkingtea:release-d2024.12.1 drinkingtea:release-d2024.12.0 drinkingtea:release-d2024.05.0 drinkingtea:release-d2023.12.0 drinkingtea:release-d2021.12.0 drinkingtea:release-d2020.06.0 drinkingtea:release-d2020.03.0 drinkingtea:hello_world
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compare: drinkingtea:release-d2025.06.0
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drinkingtea:master drinkingtea:david/clargs-refactor drinkingtea:release-d2025.07 drinkingtea:release-d2025.06 drinkingtea:release-d2025.05 drinkingtea:release-d2025.02 drinkingtea:release-d2024.12 drinkingtea:stable drinkingtea:release-d2024.05 drinkingtea:release-d2023.12
drinkingtea:release-d2025.07.0 drinkingtea:release-d2025.06.0 drinkingtea:release-d2025.05.1 drinkingtea:release-d2025.05.0 drinkingtea:release-d2025.02.1 drinkingtea:release-d2025.02.0 drinkingtea:release-d2024.12.4 drinkingtea:release-d2024.12.3 drinkingtea:release-d2024.12.2 drinkingtea:release-d2024.12.1 drinkingtea:release-d2024.12.0 drinkingtea:release-d2024.05.0 drinkingtea:release-d2023.12.0 drinkingtea:release-d2021.12.0 drinkingtea:release-d2020.06.0 drinkingtea:release-d2020.03.0 drinkingtea:hello_world

5 Commits
46a7331754 ... release-d2

Author SHA1 Message Date
Gary Talent
1057099fcf [nostalgia] Update release notes
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Details
2025-06-22 01:01:46 -05:00
Gary Talent
17577b6e8b [nostalgia/gfx/studio/tilesheet] Disable paste when nothing is selected 2025-06-22 01:01:44 -05:00
Gary Talent
db442e2775 [nostalgia/gfx] Address a couple of implicit conversions
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2025-06-21 14:21:23 -05:00
Gary Talent
23cd50d29e [studio] Fix Studio to clear editor pointers when opening a new project 2025-06-21 14:21:12 -05:00
Gary Talent
28088d1ed1 [nostalgia/studio] Set version to d2025.06.0
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2025-06-21 08:55:52 -05:00
187 changed files with 1849 additions and 2761 deletions
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23
Makefile
View File

@@ -14,7 +14,7 @@ endif
PROJECT_PLAYER=./build/${BC_VAR_CURRENT_BUILD}/bin/${BC_VAR_PROJECT_NAME_CAP}
.PHONY: pkg-gba
pkg-gba: build-pack build-gba-player
pkg-gba: build
${BC_CMD_ENVRUN} ${BC_PY3} ./util/scripts/pkg-gba.py sample_project ${BC_VAR_PROJECT_NAME_CAP}
.PHONY: pkg-mac
@@ -26,44 +26,25 @@ generate-studio-rsrc:
${BC_CMD_ENVRUN} ${BC_PY3} ./util/scripts/file-to-cpp.py --rsrc src/olympic/studio/applib/src/rsrc.json
${BC_CMD_ENVRUN} ${BC_PY3} ./util/scripts/file-to-cpp.py --rsrc src/nostalgia/studio/rsrc.json
.PHONY: build-gba-player
build-gba-player:
cmake --build ./build/gba-*
.PHONY: build-player
build-player:
${BC_CMD_CMAKE_BUILD} ${BC_VAR_BUILD_PATH} ${BC_VAR_PROJECT_NAME_CAP}
.PHONY: build-pack
build-pack:
cmake --build ./build/${BC_VAR_CURRENT_BUILD} --target ${BC_VAR_PROJECT_NAME}-pack
.PHONY: run
run: build-player
${PROJECT_PLAYER} sample_project
.PHONY: build-studio
build-studio:
cmake --build ./build/${BC_VAR_CURRENT_BUILD} --target ${BC_VAR_PROJECT_NAME_CAP}Studio
.PHONY: run-studio
run-studio: build-studio
run-studio: build
${PROJECT_STUDIO}
.PHONY: gba-run
gba-run: pkg-gba
${MGBA} ${BC_VAR_PROJECT_NAME_CAP}.gba
.PHONY: debug
debug: build
${BC_CMD_HOST_DEBUGGER} ${PROJECT_PLAYER} sample_project
.PHONY: debug-studio
debug-studio: build
${BC_CMD_HOST_DEBUGGER} ${PROJECT_STUDIO}
.PHONY: configure-gba
configure-gba:
${BC_CMD_SETUP_BUILD} --toolchain=deps/gbabuildcore/cmake/modules/GBA.cmake --target=gba --current_build=0 --build_type=release --build_root=${BC_VAR_BUILD_PATH}

46
deps/glutils/include/glutils/glutils.hpp vendored
View File

@@ -89,7 +89,7 @@ struct GLObject: public Base {
return id;
}
constexpr operator GLuint const&() const noexcept {
constexpr operator const GLuint&() const noexcept {
return id;
}
@@ -135,7 +135,7 @@ struct FrameBuffer {
return fbo.id;
}
constexpr operator GLuint const&() const noexcept {
constexpr operator const GLuint&() const noexcept {
return fbo.id;
}
@@ -158,14 +158,14 @@ struct FrameBuffer {
class FrameBufferBind {
private:
static FrameBuffer const *s_activeFb;
FrameBuffer const *m_restoreFb = nullptr;
static const FrameBuffer *s_activeFb;
const FrameBuffer *m_restoreFb = nullptr;
public:
explicit FrameBufferBind(FrameBuffer const &fb) noexcept;
explicit FrameBufferBind(const FrameBuffer &fb) noexcept;
~FrameBufferBind() noexcept;
};
void bind(FrameBuffer const &fb) noexcept;
void bind(const FrameBuffer &fb) noexcept;
struct ShaderVarSet {
GLsizei len{};
@@ -176,7 +176,7 @@ struct ProgramSource {
ox::Vector<glutils::ShaderVarSet> const shaderParams;
GLsizei const rowLen = [this] {
GLsizei len{};
for (auto const &v : shaderParams) {
for (auto const&v : shaderParams) {
len += v.len;
}
return len;
@@ -187,23 +187,23 @@ struct ProgramSource {
ox::String const geomShader{};
};
ox::Result<GLProgram> buildShaderProgram(ProgramSource const &src) noexcept;
ox::Result<GLProgram> buildShaderProgram(ProgramSource const&src) noexcept;
ox::Result<GLProgram> buildShaderProgram(
ox::CStringView const &vert,
ox::CStringView const &frag,
ox::CStringView const &geo = "") noexcept;
ox::CStringView const&vert,
ox::CStringView const&frag,
ox::CStringView const&geo = "") noexcept;
void setupShaderParams(
GLProgram const &shader,
ox::Vector<ShaderVarSet> const &vars,
GLProgram const&shader,
ox::Vector<ShaderVarSet> const&vars,
GLsizei vertexRowLen) noexcept;
void setupShaderParams(GLProgram const &shader, ox::Vector<ShaderVarSet> const &vars) noexcept;
void setupShaderParams(GLProgram const&shader, ox::Vector<ShaderVarSet> const&vars) noexcept;
GLVertexArray generateVertexArrayObject() noexcept;
glutils::GLVertexArray generateVertexArrayObject() noexcept;
GLBuffer generateBuffer() noexcept;
glutils::GLBuffer generateBuffer() noexcept;
[[nodiscard]]
FrameBuffer generateFrameBuffer(int width, int height) noexcept;
@@ -215,20 +215,20 @@ void resizeFrameBuffer(FrameBuffer &fb, int width, int height) noexcept;
*/
void resizeInitFrameBuffer(FrameBuffer &fb, int width, int height) noexcept;
void resizeInitFrameBuffer(FrameBuffer &fb, ox::Size const &sz) noexcept;
void resizeInitFrameBuffer(FrameBuffer &fb, ox::Size const&sz) noexcept;
struct BufferSet {
GLVertexArray vao;
GLBuffer vbo;
GLBuffer ebo;
GLTexture tex;
glutils::GLVertexArray vao;
glutils::GLBuffer vbo;
glutils::GLBuffer ebo;
glutils::GLTexture tex;
ox::Vector<float> vertices;
ox::Vector<GLuint> elements;
};
void sendVbo(BufferSet const &bs) noexcept;
void sendVbo(BufferSet const&bs) noexcept;
void sendEbo(BufferSet const &bs) noexcept;
void sendEbo(BufferSet const&bs) noexcept;
void clearScreen() noexcept;

71
deps/glutils/src/glutils.cpp vendored
View File

@@ -46,9 +46,9 @@ template struct GLObject<deleteVertexArray>;
template struct GLObject<deleteProgram>;
template struct GLObject<deleteShader>;
FrameBuffer const *FrameBufferBind::s_activeFb = nullptr;
const FrameBuffer *FrameBufferBind::s_activeFb = nullptr;
FrameBufferBind::FrameBufferBind(FrameBuffer const &fb) noexcept: m_restoreFb(s_activeFb) {
FrameBufferBind::FrameBufferBind(const FrameBuffer &fb) noexcept: m_restoreFb(s_activeFb) {
s_activeFb = &fb;
glBindFramebuffer(GL_FRAMEBUFFER, fb);
glViewport(0, 0, fb.width, fb.height);
@@ -64,15 +64,15 @@ FrameBufferBind::~FrameBufferBind() noexcept {
}
}
void bind(FrameBuffer const &fb) noexcept {
void bind(const FrameBuffer &fb) noexcept {
glBindFramebuffer(GL_FRAMEBUFFER, fb);
glViewport(0, 0, fb.width, fb.height);
}
static ox::Result<GLShader> buildShader(
GLuint const shaderType,
GLchar const *src,
GLuint shaderType,
const GLchar *src,
ox::StringViewCR shaderName) noexcept {
GLShader shader(glCreateShader(shaderType));
glShaderSource(shader, 1, &src, nullptr);
@@ -88,7 +88,7 @@ static ox::Result<GLShader> buildShader(
return shader;
}
ox::Result<GLProgram> buildShaderProgram(ProgramSource const &src) noexcept {
ox::Result<GLProgram> buildShaderProgram(ProgramSource const&src) noexcept {
OX_REQUIRE_M(program, buildShaderProgram(
src.vertShader,
src.fragShader,
@@ -98,11 +98,11 @@ ox::Result<GLProgram> buildShaderProgram(ProgramSource const &src) noexcept {
}
void setupShaderParams(
GLProgram const &shader,
ox::Vector<ShaderVarSet> const &vars,
GLProgram const&shader,
ox::Vector<ShaderVarSet> const&vars,
GLsizei vertexRowLen) noexcept {
// setup vars
for (size_t lenWritten = 0; auto const &v : vars) {
for (size_t lenWritten = 0; auto const&v : vars) {
auto const attr = static_cast<GLuint>(glGetAttribLocation(shader, v.name.c_str()));
glEnableVertexAttribArray(attr);
glVertexAttribPointer(
@@ -113,19 +113,19 @@ void setupShaderParams(
}
}
void setupShaderParams(GLProgram const &shader, ox::Vector<ShaderVarSet> const &vars) noexcept {
void setupShaderParams(GLProgram const&shader, ox::Vector<ShaderVarSet> const&vars) noexcept {
// get row len
GLsizei vertexRowLen{};
for (auto const &v : vars) {
for (auto const&v : vars) {
vertexRowLen += v.len;
}
setupShaderParams(shader, vars, vertexRowLen);
}
ox::Result<GLProgram> buildShaderProgram(
ox::CStringView const &vert,
ox::CStringView const &frag,
ox::CStringView const &geo) noexcept {
ox::CStringView const&vert,
ox::CStringView const&frag,
ox::CStringView const&geo) noexcept {
GLProgram prgm(glCreateProgram());
OX_REQUIRE(vs, buildShader(GL_VERTEX_SHADER, vert.c_str(), "vshad"));
glAttachShader(prgm, vs);
@@ -162,30 +162,16 @@ FrameBuffer generateFrameBuffer(int width, int height) noexcept {
// color texture
glGenTextures(1, &fb.color.id);
glBindTexture(GL_TEXTURE_2D, fb.color);
glTexImage2D(
GL_TEXTURE_2D,
0,
GL_RGB,
width,
height,
0,
GL_RGB,
GL_UNSIGNED_BYTE,
nullptr);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, width, height, 0, GL_RGB, GL_UNSIGNED_BYTE, nullptr);
glGenerateMipmap(GL_TEXTURE_2D);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glFramebufferTexture2D(
GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, fb.color, 0);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, fb.color, 0);
// depth texture
glGenRenderbuffers(1, &fb.depth.id);
glBindRenderbuffer(GL_RENDERBUFFER, fb.depth);
glRenderbufferStorage(GL_RENDERBUFFER, GL_DEPTH24_STENCIL8, width, height);
glFramebufferRenderbuffer(
GL_FRAMEBUFFER,
GL_DEPTH_STENCIL_ATTACHMENT,
GL_RENDERBUFFER,
fb.depth);
glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_DEPTH_STENCIL_ATTACHMENT, GL_RENDERBUFFER, fb.depth);
// verify FBO
oxAssert(glCheckFramebufferStatus(GL_FRAMEBUFFER) == GL_FRAMEBUFFER_COMPLETE, "Frame Buffer is incomplete");
// restore primary FB
@@ -203,16 +189,7 @@ void resizeFrameBuffer(FrameBuffer &fb, int width, int height) noexcept {
glBindFramebuffer(GL_FRAMEBUFFER, fb);
// color texture
glBindTexture(GL_TEXTURE_2D, fb.color);
glTexImage2D(
GL_TEXTURE_2D,
0,
GL_RGB,
width,
height,
0,
GL_RGB,
GL_UNSIGNED_BYTE,
nullptr);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, width, height, 0, GL_RGB, GL_UNSIGNED_BYTE, nullptr);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
// depth texture
@@ -224,7 +201,7 @@ void resizeFrameBuffer(FrameBuffer &fb, int width, int height) noexcept {
glBindRenderbuffer(GL_RENDERBUFFER, 0);
}
void resizeInitFrameBuffer(FrameBuffer &fb, int const width, int const height) noexcept {
void resizeInitFrameBuffer(FrameBuffer &fb, int width, int height) noexcept {
if (!fb) {
fb = generateFrameBuffer(width, height);
return;
@@ -232,18 +209,18 @@ void resizeInitFrameBuffer(FrameBuffer &fb, int const width, int const height) n
resizeFrameBuffer(fb, width, height);
}
void resizeInitFrameBuffer(FrameBuffer &fb, ox::Size const &sz) noexcept {
void resizeInitFrameBuffer(FrameBuffer &fb, ox::Size const&sz) noexcept {
resizeInitFrameBuffer(fb, sz.width, sz.height);
}
void sendVbo(BufferSet const &bs) noexcept {
auto const bufferSize = static_cast<GLsizeiptr>(sizeof(decltype(bs.vertices)::value_type) * bs.vertices.size());
void sendVbo(BufferSet const&bs) noexcept {
const auto bufferSize = static_cast<GLsizeiptr>(sizeof(decltype(bs.vertices)::value_type) * bs.vertices.size());
glBindBuffer(GL_ARRAY_BUFFER, bs.vbo);
glBufferData(GL_ARRAY_BUFFER, bufferSize, bs.vertices.data(), GL_DYNAMIC_DRAW);
}
void sendEbo(BufferSet const &bs) noexcept {
auto const bufferSize = static_cast<GLsizeiptr>(sizeof(decltype(bs.elements)::value_type) * bs.elements.size());
void sendEbo(BufferSet const&bs) noexcept {
const auto bufferSize = static_cast<GLsizeiptr>(sizeof(decltype(bs.elements)::value_type) * bs.elements.size());
glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, bs.ebo);
glBufferData(GL_ELEMENT_ARRAY_BUFFER, bufferSize, bs.elements.data(), GL_STATIC_DRAW);
}

217
deps/ox/ox-docs.md vendored
View File

@@ -28,7 +28,10 @@ All components have a platform indicator next to them:
Ox provides ```ox::Error``` to report errors.
```ox::Error``` is a struct that has overloaded operators to behave like an
integer error code, plus some extra fields to enhance debuggability.
```ox::Error```s will also include the file and line of the error.
If instantiated through the ```OxError(x)``` macro, it will also include the
file and line of the error.
The ```OxError(x)``` macro should only be used for the initial instantiation of
an ```ox::Error```.
In addition to ```ox::Error``` there is also the template ```ox::Result<T>```.
```ox::Result``` simply wraps the type T value in a struct that also includes
@@ -46,7 +49,7 @@ ox::Result<int> foo(int i) noexcept {
if (i < 10) {
return i + 1; // implicitly calls ox::Result<T>::Result(T)
}
return ox::Error(1); // implicitly calls ox::Result<T>::Result(ox::Error)
return OxError(1); // implicitly calls ox::Result<T>::Result(ox::Error)
}
int caller1() {
@@ -178,216 +181,6 @@ variant for creating a non-const value.
* ```OX_REQUIRE_M``` - OX_REQUIRE Mutable
### Ox String Types
Ox has six different major string types.
These types are divided into two categories: store types and view types.
String stores maintain a copy of the string data, whereas view types only
maintain a reference to the data.
Views should be used where you otherwise might use a const reference to a
string store type.
Having all of these different string types may sound like an interoperability
nightmare, but taking string view types extensively where applicable makes the
imagined interoperability issues virtually non-existent.
#### String Store Types
##### String / BasicString
```ox::String```, or really ```ox::BasicString```, is Ox's version of
```std::string```.
Like ```std::string```, ```String``` allocates to store the string data.
Also like ```std::string```, ```String``` allows for small string
optimization for strings under 8 bytes.
Unlike ```std::string```, the template that ```String``` is based on,
```BasicString```, takes a parameter that allows adjusting to different size
small string buffers.
```ox::String``` is an alias to ```ox::BasicString<8>```.
```cpp
// s can hold up to 100 bytes, plus one for a null terminator before allocating
ox::BasicString<100> s;
```
Also unlike ```std::string```, ```ox::String``` has an explicit C-string conversion
constructor.
This prevents accidental instantiations of ```String```.
Consider the following:
```cpp
void fStd(std::string const&);
void fOx(ox::String const&);
int main() {
// implicit and silent instantiation of std::string, which includes an
// allocation
fStd("123456789");
// Will fail to compile:
fOx("123456789");
// But explicit String instantiation will work:
fOx(ox::String{"123456789"});
}
```
##### IString
```IString```, or "inline string", is like ```BasicString```, but it will cut
off strings that exceed that limit.
```cpp
ox::IString<5> s; // s can hold up to 5 characters, plus a null terminator
s = "12345"; // valid
s = "123456"; // will compile and run, but will get cut off at '5'
```
This is useful for certain string categories that have fixed lengths, like UUID
strings or for numbers.
Ox makes use of ```IString``` in the following ways:
```cpp
using UUIDStr = ox::IString<36>;
// and
template<Integer_c Integer>
[[nodiscard]]
constexpr auto intToStr(Integer v) noexcept {
constexpr auto Cap = [] {
auto out = 0;
switch (sizeof(Integer)) {
case 1:
out = 3;
break;
case 2:
out = 5;
break;
case 4:
out = 10;
break;
case 8:
out = 21;
break;
}
return out + ox::is_signed_v<Integer>;
}();
ox::IString<Cap> out;
std::ignore = out.resize(out.cap());
ox::CharBuffWriter w{{out.data(), out.cap()}};
std::ignore = writeItoa(v, w);
std::ignore = out.resize(w.tellp());
return out;
}
```
##### StringParam
```StringParam``` is a weird type.
Because ```String::String(const char*)``` is explicit, it becomes a pain for
functions to take ```String```s.
```cpp
struct Type {
ox::String m_s;
explicit Type(ox::String p): m_s(std::move(p)) {
}
};
void f() {
ox::String s{"asdf"};
Type t1{"asdf"}; // invalid - will not compile
Type t2{s}; // invalid - will not compile
Type t3{std::move(s)}; // valid
Type t4{ox::String{"asdf"}}; // valid
}
```
```StringParam``` has implicit conversion constructors, and will appropriately
move from r-value ```String```s or create a ```String``` if not passed
ownership of an existing ```String```.
Think of ```StringParam``` as a way to opt-in to implicit instantiation with
strings.
```StringParam``` can access the string as a view through the ```view()```
function, and the ```String``` inside can be accessed by moving from the
```StringParam```.
```cpp
struct Type {
ox::String m_s;
explicit Type(ox::StringParam p): m_s(std::move(p)) {
}
};
void f() {
ox::String s{"asdf"};
Type t1{"asdf"}; // valid
Type t2{s}; // valid
Type t3{std::move(s)}; // valid
Type t4{ox::String{"asdf"}}; // valid
}
```
#### String View Types
##### StringView
```ox::StringView``` is Ox's version of ```std::string_view```.
```StringView``` contains a pointer to a string, along with its size.
This should be the normal type taken when a function needs a string that will
exist until it returns.
##### CStringView
```CStringView``` is like ```StringView```, but it comes with the promise that
the string ends with a null terminator.
Accordingly, it has a ```c_str()``` function in addition to the ```data()```
function that ```StringView``` has.
```CStringView``` should be used when wrapping a C API that only takes C
strings.
##### StringLiteral
```StringLiteral``` is a string view type, but it kind of straddles the line
between view and store types.
Creating a ```StringLiteral``` is a promise that you are passing a string
literal into the constructor.
This means you can treat it like a store, that can be safely used as a copy of
the data.
Functions that take ```StringLiteral```s are allowed to assume that the data
will have no lifetime concerns and hold onto it without any need to make a
copy.
It has a consteval constructor to enforce the promise that it is a compile time
string.
```cpp
void f(ox::StringLiteral const&);
int main() {
f("123456789"); // valid
f(ox::String{"123456789"}.c_str()); // invalid - will not compile
}
```
#### Other Variants
There are a few convenience aliases as well.
* StringCR = String const&
* StringViewCR = StringView const&
* CStringViewCR = CStringView const&
* CString = const char*
String views do not generally need const references, but it does make debugging
easier, as we can skip the constructor call if a string view already exists.
These kind of aliases probably should not exist for most types, but strings are
fundamental and ease of use is desirable.
### Logging and Output
Ox provides for logging and debug prints via the ```oxTrace```, ```oxDebug```, and ```oxError``` macros.

14
deps/ox/src/ox/clargs/clargs.cpp vendored
View File

@@ -15,16 +15,16 @@ ClArgs::ClArgs(int argc, const char **args) noexcept: ClArgs({args, static_cast<
ClArgs::ClArgs(ox::SpanView<const char*> args) noexcept {
for (auto i = 0u; i < args.size(); ++i) {
auto arg = StringView{args[i]};
auto arg = StringView(args[i]);
if (arg[0] == '-') {
while (arg[0] == '-' && arg.size()) {
while (arg[0] == '-' && arg.len()) {
arg = substr(arg, 1);
}
m_bools[arg] = true;
// parse additional arguments
if (i < args.size() && args[i + 1]) {
auto const val = StringView{args[i + 1]};
if (val.size() && val[0] != '-') {
auto val = String(args[i + 1]);
if (val.len() && val[i] != '-') {
if (val == "false") {
m_bools[arg] = false;
}
@@ -40,17 +40,17 @@ ClArgs::ClArgs(ox::SpanView<const char*> args) noexcept {
}
bool ClArgs::getBool(ox::StringViewCR arg, bool defaultValue) const noexcept {
auto const [value, err] = m_ints.at(arg);
auto [value, err] = m_ints.at(arg);
return !err ? *value : defaultValue;
}
String ClArgs::getString(ox::StringViewCR arg, ox::StringView defaultValue) const noexcept {
auto const [value, err] = m_strings.at(arg);
auto [value, err] = m_strings.at(arg);
return !err ? ox::String(*value) : ox::String(defaultValue);
}
int ClArgs::getInt(ox::StringViewCR arg, int defaultValue) const noexcept {
auto const [value, err] = m_ints.at(arg);
auto [value, err] = m_ints.at(arg);
return !err ? *value : defaultValue;
}

5
deps/ox/src/ox/claw/read.cpp vendored
View File

@@ -106,14 +106,15 @@ Result<ModelObject> readClaw(TypeStore &ts, BufferView buff) noexcept {
{
ox::BufferReader br({header.data, header.dataSize});
MetalClawReader reader(br);
OX_RETURN_ERROR(model(reader.interface(), &obj));
ModelHandlerInterface handler(&reader);
OX_RETURN_ERROR(model(&handler, &obj));
return obj;
}
case ClawFormat::Organic:
{
#ifdef OX_USE_STDLIB
OrganicClawReader reader({header.data, header.dataSize});
ModelHandlerInterface handler(reader);
ModelHandlerInterface handler(&reader);
OX_RETURN_ERROR(model(&handler, &obj));
return obj;
#else

3
deps/ox/src/ox/claw/read.hpp vendored
View File

@@ -52,7 +52,8 @@ Error readClaw(ox::BufferView buff, T &val) {
{
ox::BufferReader br({header.data, header.dataSize});
MetalClawReader reader(br);
return model(reader.interface(), &val);
ModelHandlerInterface handler(&reader);
return model(&handler, &val);
}
case ClawFormat::Organic:
{

8
deps/ox/src/ox/claw/test/tests.cpp vendored
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@@ -109,7 +109,7 @@ static std::map<ox::StringView, ox::Error(*)()> tests = {
"ClawHeaderReader",
[] {
constexpr auto hdr = ox::StringLiteral("O1;com.drinkingtea.ox.claw.test.Header;2;");
auto [ch, err] = ox::readClawHeader({hdr.c_str(), hdr.size() + 1});
auto [ch, err] = ox::readClawHeader({hdr.c_str(), hdr.len() + 1});
oxAssert(err, "Error parsing header");
oxAssert(ch.fmt == ox::ClawFormat::Organic, "Format wrong");
oxAssert(ch.typeName == "com.drinkingtea.ox.claw.test.Header", "Type name wrong");
@@ -121,7 +121,7 @@ static std::map<ox::StringView, ox::Error(*)()> tests = {
"ClawHeaderReader2",
[] {
constexpr auto hdr = ox::StringLiteral("M2;com.drinkingtea.ox.claw.test.Header2;3;");
auto [ch, err] = ox::readClawHeader({hdr.c_str(), hdr.size() + 1});
auto [ch, err] = ox::readClawHeader({hdr.c_str(), hdr.len() + 1});
oxAssert(err, "Error parsing header");
oxAssert(ch.fmt == ox::ClawFormat::Metal, "Format wrong");
oxAssert(ch.typeName == "com.drinkingtea.ox.claw.test.Header2", "Type name wrong");
@@ -134,8 +134,8 @@ static std::map<ox::StringView, ox::Error(*)()> tests = {
[] {
constexpr auto hdr = ox::StringLiteral("M2;com.drinkingtea.ox.claw.test.Header2;3;awefawf");
constexpr auto expected = ox::StringLiteral("com.drinkingtea.ox.claw.test.Header2;3");
OX_REQUIRE(actual, ox::readClawTypeId({hdr.data(), hdr.size() + 1}));
ox::expect(actual, expected);
OX_REQUIRE(actual, ox::readClawTypeId({hdr.data(), hdr.len() + 1}));
oxExpect(actual, expected);
return ox::Error{};
}
},

4
deps/ox/src/ox/fs/filesystem/directory.hpp vendored
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@@ -52,7 +52,7 @@ struct OX_PACKED DirectoryEntry {
if (d.valid()) {
d->inode = inode;
auto const maxStrSz = bufferSize - 1 - sizeof(*this);
ox::strncpy(d->name, name.data(), ox::min(maxStrSz, name.size()));
ox::strncpy(d->name, name.data(), ox::min(maxStrSz, name.len()));
return {};
}
return ox::Error(1);
@@ -219,7 +219,7 @@ Error Directory<FileStore, InodeId_t>::write(PathIterator path, uint64_t inode64
oxTrace("ox.fs.Directory.write.fail", "Could not read existing version of Directory");
return ox::Error(1, "Could not read existing version of Directory");
}
const auto pathSize = name.size() + 1;
const auto pathSize = name.len() + 1;
const auto entryDataSize = DirectoryEntry<InodeId_t>::DirectoryEntryData::spaceNeeded(pathSize);
const auto newSize = oldStat.size + Buffer::spaceNeeded(entryDataSize);
auto cpy = ox_malloca(newSize, Buffer, *old, oldStat.size);

4
deps/ox/src/ox/fs/filesystem/filesystem.hpp vendored
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@@ -87,7 +87,7 @@ class FileSystem {
return writeFilePath(path, buffer, size, FileType::NormalFile);
}
Error write(StringViewCR path, ox::SpanView<char> const&buff) noexcept {
Error write(StringViewCR path, ox::Span<char> const&buff) noexcept {
return write(path, buff.data(), buff.size(), FileType::NormalFile);
}
@@ -95,7 +95,7 @@ class FileSystem {
return write(inode, buffer, size, FileType::NormalFile);
}
Error write(uint64_t inode, ox::SpanView<char> const&buff) noexcept {
Error write(uint64_t inode, ox::Span<char> const&buff) noexcept {
return write(inode, buff.data(), buff.size(), FileType::NormalFile);
}

2
deps/ox/src/ox/fs/filesystem/passthroughfs.cpp vendored
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@@ -206,7 +206,7 @@ Error PassThroughFS::writeFileInode(uint64_t, const void*, uint64_t, FileType) n
}
std::string_view PassThroughFS::stripSlash(StringView path) noexcept {
for (auto i = 0u; i < path.size() && path[0] == '/'; i++) {
for (auto i = 0u; i < path.len() && path[0] == '/'; i++) {
path = substr(path, 1);
}
return {path.data(), path.bytes()};

6
deps/ox/src/ox/fs/filesystem/pathiterator.cpp vendored
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@@ -74,7 +74,7 @@ Error PathIterator::get(StringView &fileName) {
if (size && fileName[size - 1] == '/') {
fileName = ox::substr(m_path, start, start + size - 1);
}
oxAssert(fileName[fileName.size()-1] != '/', "name ends in /");
oxAssert(fileName[fileName.len()-1] != '/', "name ends in /");
return {};
}
@@ -104,11 +104,11 @@ Error PathIterator::next(StringView &fileName) {
}
fileName = ox::substr(m_path, start, start + size);
// truncate trailing /
while (fileName.size() && fileName[fileName.size() - 1] == '/') {
while (fileName.len() && fileName[fileName.len() - 1] == '/') {
fileName = ox::substr(m_path, start, start + size);
}
m_iterator += size;
oxAssert(fileName.size() == 0 || fileName[fileName.size()-1] != '/', "name ends in /");
oxAssert(fileName.len() == 0 || fileName[fileName.len()-1] != '/', "name ends in /");
}
return retval;
}

16
deps/ox/src/ox/fs/test/tests.cpp vendored
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@@ -59,7 +59,7 @@ const std::map<ox::StringView, std::function<ox::Error(ox::StringView)>> tests =
"PathIterator::next1",
[](ox::StringView) {
auto constexpr path = ox::StringLiteral("/usr/share/charset.gbag");
ox::PathIterator it(path.c_str(), path.size());
ox::PathIterator it(path.c_str(), path.len());
ox::StringView buff;
oxAssert(it.next(buff) == 0 && buff == "usr", "PathIterator shows wrong next");
oxAssert(it.next(buff) == 0 && buff == "share", "PathIterator shows wrong next");
@@ -74,9 +74,9 @@ const std::map<ox::StringView, std::function<ox::Error(ox::StringView)>> tests =
ox::PathIterator it(path);
ox::StringView buff;
oxAssert(it.next(buff), "PathIterator::next returned error");
ox::expect(buff, "usr");
oxExpect(buff, "usr");
oxAssert(it.next(buff), "PathIterator::next returned error");
ox::expect(buff, "share");
oxExpect(buff, "share");
return ox::Error(0);
}
},
@@ -84,7 +84,7 @@ const std::map<ox::StringView, std::function<ox::Error(ox::StringView)>> tests =
"PathIterator::next3",
[](ox::StringView) {
auto const path = ox::String("/");
ox::PathIterator it(path.c_str(), path.size());
ox::PathIterator it(path.c_str(), path.len());
ox::StringView buff;
oxAssert(it.next(buff) == 0 && buff == "\0", "PathIterator shows wrong next");
return ox::Error(0);
@@ -106,7 +106,7 @@ const std::map<ox::StringView, std::function<ox::Error(ox::StringView)>> tests =
"PathIterator::next5",
[](ox::StringView) {
auto const path = ox::String("usr/share/");
ox::PathIterator it(path.c_str(), path.size());
ox::PathIterator it(path.c_str(), path.len());
ox::StringView buff;
oxAssert(it.next(buff) == 0 && buff == "usr", "PathIterator shows wrong next");
oxAssert(it.next(buff) == 0 && buff == "share", "PathIterator shows wrong next");
@@ -117,10 +117,10 @@ const std::map<ox::StringView, std::function<ox::Error(ox::StringView)>> tests =
"PathIterator::dirPath",
[] (ox::StringView) {
auto constexpr path = ox::StringLiteral("/usr/share/charset.gbag");
ox::PathIterator it(path.c_str(), path.size());
auto buff = static_cast<char*>(ox_alloca(path.size() + 1));
ox::PathIterator it(path.c_str(), path.len());
auto buff = static_cast<char*>(ox_alloca(path.len() + 1));
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
oxAssert(it.dirPath(buff, path.size()) == 0 && ox::strcmp(buff, "/usr/share/") == 0, "PathIterator shows incorrect dir path");
oxAssert(it.dirPath(buff, path.len()) == 0 && ox::strcmp(buff, "/usr/share/") == 0, "PathIterator shows incorrect dir path");
OX_ALLOW_UNSAFE_BUFFERS_END
return ox::Error(0);
}

87
deps/ox/src/ox/mc/intops.hpp vendored
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@@ -18,25 +18,25 @@
namespace ox::mc {
template<Integer_c T>
template<typename T>
static constexpr auto Bits = sizeof(T) << 3;
/**
* Returns highest bit other than possible signed bit.
* Bit numbering starts at 0.
*/
template<Integer_c I>
template<typename I>
[[nodiscard]]
constexpr size_t highestBit(I const val) noexcept {
constexpr std::size_t highestBit(I val) noexcept {
unsigned shiftStart = sizeof(I) * 8 - 1;
// find the most significant non-sign indicator bit
size_t highestBit = 0;
// find most significant non-sign indicator bit
std::size_t highestBit = 0;
// start at one bit lower if signed
if constexpr(is_signed_v<I>) {
--shiftStart;
}
for (auto i = shiftStart; i > 0; --i) {
auto const bitValue = (val >> i) & 1;
const auto bitValue = (val >> i) & 1;
if (bitValue) {
highestBit = i;
break;
@@ -45,7 +45,7 @@ constexpr size_t highestBit(I const val) noexcept {
return highestBit;
}
static_assert(highestBit(static_cast<int8_t>(0b10000000)) == 0);
static_assert(highestBit(int8_t(0b10000000)) == 0);
static_assert(highestBit(~static_cast<int8_t>(-1)) == 0);
static_assert(highestBit(~static_cast<int8_t>(-2)) == 0);
static_assert(highestBit(~static_cast<int8_t>(-3)) == 1);
@@ -53,39 +53,42 @@ static_assert(highestBit(1) == 0);
static_assert(highestBit(2) == 1);
static_assert(highestBit(4) == 2);
static_assert(highestBit(8) == 3);
static_assert(highestBit(static_cast<uint64_t>(1) << 31) == 31);
static_assert(highestBit(static_cast<uint64_t>(1) << 63) == 63);
static_assert(highestBit(uint64_t(1) << 31) == 31);
static_assert(highestBit(uint64_t(1) << 63) == 63);
struct McInt {
Array<uint8_t, 9> data{};
ox::Array<uint8_t, 9> data{};
// length of integer in bytes
size_t length = 0;
std::size_t length = 0;
};
template<Integer_c I>
template<typename I>
[[nodiscard]]
constexpr McInt encodeInteger(I const pInput) noexcept {
auto const input = ResizedInt_t<I, 64>{pInput};
constexpr McInt encodeInteger(I pInput) noexcept {
auto const input = ox::ResizedInt_t<I, 64>{pInput};
McInt out;
auto const inputNegative = is_signed_v<I> && input < 0;
// move input to uint64_t to allow consistent bit manipulation and to avoid
const auto inputNegative = is_signed_v<I> && input < 0;
// move input to uint64_t to allow consistent bit manipulation, and to avoid
// overflow concerns
auto const val = std::bit_cast<uint64_t>(input);
uint64_t val = 0;
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
ox::memcpy(&val, &input, sizeof(input));
OX_ALLOW_UNSAFE_BUFFERS_END
if (val) {
// bits needed to represent number factoring in space possibly
// needed for signed bit
auto const highBit = inputNegative ? highestBit(~val) : highestBit(val);
auto const bits = highBit + 1 + (is_signed_v<I> ? 1 : 0);
const auto highBit = inputNegative ? highestBit(~val) : highestBit(val);
const auto bits = highBit + 1 + (is_signed_v<I> ? 1 : 0);
// bytes needed to store value
size_t bytes = bits / 8 + (bits % 8 != 0);
auto const bitsAvailable = bytes * 8; // bits available to integer value
auto const bitsNeeded = bits + bytes;
std::size_t bytes = bits / 8 + (bits % 8 != 0);
const auto bitsAvailable = bytes * 8; // bits available to integer value
const auto bitsNeeded = bits + bytes;
// factor in bits needed for bytesIndicator (does not affect bytesIndicator)
// bits for integer + bits needed to represent bytes > bits available
if (bitsNeeded > bitsAvailable && bytes != 9) {
++bytes;
}
auto const bytesIndicator = onMask<uint8_t>(bytes - 1);
const auto bytesIndicator = onMask<uint8_t>(bytes - 1);
// ensure we are copying from little endian representation
LittleEndian<uint64_t> leVal = val;
if (inputNegative) {
@@ -100,9 +103,9 @@ constexpr McInt encodeInteger(I const pInput) noexcept {
out.data[1] |= 0b1000'0000;
}
} else {
auto const valBits = bytes * 8;
uint64_t const negBit = inputNegative ? 1 : 0;
auto const intermediate =
const auto valBits = bytes * 8;
uint64_t negBit = inputNegative ? 1 : 0;
auto intermediate =
static_cast<uint64_t>(leVal.raw() | (negBit << (valBits - 1))) << bytes |
static_cast<uint64_t>(bytesIndicator);
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
@@ -119,8 +122,8 @@ constexpr McInt encodeInteger(I const pInput) noexcept {
* length integer.
*/
[[nodiscard]]
constexpr size_t countBytes(unsigned const b) noexcept {
size_t i = 0;
constexpr std::size_t countBytes(unsigned b) noexcept {
std::size_t i = 0;
while ((b >> i) & 1) ++i;
return i + 1;
}
@@ -135,39 +138,39 @@ static_assert(countBytes(0b0011'1111) == 7);
static_assert(countBytes(0b0111'1111) == 8);
static_assert(countBytes(0b1111'1111) == 9);
template<Integer_c I>
constexpr Result<I> decodeInteger(Reader_c auto &rdr, size_t &bytesRead) noexcept {
template<typename I>
constexpr Result<I> decodeInteger(Reader_c auto&rdr, std::size_t *bytesRead) noexcept {
uint8_t firstByte = 0;
OX_RETURN_ERROR(rdr.read(&firstByte, 1));
OX_RETURN_ERROR(rdr.seekg(-1, ox::ios_base::cur));
auto const bytes = countBytes(firstByte);
const auto bytes = countBytes(firstByte);
if (bytes == 9) {
bytesRead = bytes;
*bytesRead = bytes;
I out = 0;
OX_RETURN_ERROR(rdr.seekg(1, ox::ios_base::cur));
OX_RETURN_ERROR(rdr.read(&out, sizeof(I)));
return fromLittleEndian<I>(out);
}
bytesRead = bytes;
*bytesRead = bytes;
uint64_t decoded = 0;
OX_RETURN_ERROR(rdr.read(&decoded, bytes));
decoded >>= bytes;
// move sign bit
if constexpr(is_signed_v<I>) {
auto const negBit = bytes * 8 - bytes - 1;
const auto negBit = bytes * 8 - bytes - 1;
// move sign
auto const negative = (decoded >> negBit) == 1;
const auto negative = (decoded >> negBit) == 1;
if (negative) {
// fill in all bits between encoded sign and real sign with 1s
// split it up because the 32-bit ARM can't shift more than 32 bits
Array<uint32_t, 2> d = {};
ox::Array<uint32_t, 2> d = {};
//d[0] = decoded & 0xffff'ffff;
//d[1] = decoded >> 32;
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
ox::memcpy(&d[0], &decoded, sizeof(decoded));
OX_ALLOW_UNSAFE_BUFFERS_END
auto bit = negBit;
for (; bit < ox::min<size_t>(Bits<I>, 32); ++bit) {
for (; bit < ox::min<std::size_t>(Bits<I>, 32); ++bit) {
d[0] |= 1 << bit;
}
bit -= 32;
@@ -176,7 +179,7 @@ constexpr Result<I> decodeInteger(Reader_c auto &rdr, size_t &bytesRead) noexcep
}
I out = 0;
if constexpr(ox::defines::BigEndian) {
auto const d0Tmp = d[0];
const auto d0Tmp = d[0];
d[0] = d[1];
d[1] = d0Tmp;
}
@@ -189,11 +192,11 @@ constexpr Result<I> decodeInteger(Reader_c auto &rdr, size_t &bytesRead) noexcep
return static_cast<I>(decoded);
}
template<Integer_c I>
Result<I> decodeInteger(McInt const &m) noexcept {
size_t bytesRead{};
template<typename I>
Result<I> decodeInteger(McInt m) noexcept {
std::size_t bytesRead{};
BufferReader br({reinterpret_cast<const char*>(m.data.data()), 9});
return decodeInteger<I>(br, bytesRead);
return decodeInteger<I>(br, &bytesRead);
}
}

4
deps/ox/src/ox/mc/presenceindicator.cpp vendored
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@@ -11,7 +11,7 @@
namespace ox {
template class FieldBitmapWriterBase<uint8_t>;
template class FieldBitmapWriterBase<uint8_t const>;
template class FieldBitmapWriterBase<uint8_t*>;
template class FieldBitmapWriterBase<const uint8_t*>;
}

81
deps/ox/src/ox/mc/presenceindicator.hpp vendored
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@@ -11,7 +11,6 @@
#include <ox/std/array.hpp>
#include <ox/std/bit.hpp>
#include <ox/std/error.hpp>
#include <ox/std/span.hpp>
#include <ox/std/types.hpp>
#include <ox/std/reader.hpp>
@@ -22,18 +21,18 @@ namespace ox {
template<Reader_c Reader>
class FieldBitmapReader {
protected:
mutable size_t m_mapBlockIdx = ~size_t{0};
mutable std::size_t m_mapBlockIdx = ~std::size_t{0};
mutable uint64_t m_mapBlock = 0;
size_t m_mapStart = 0;
std::size_t m_mapStart = 0;
Reader &m_reader;
public:
explicit constexpr FieldBitmapReader(Reader &reader) noexcept;
constexpr Result<bool> get(size_t idx) const noexcept;
constexpr Result<bool> get(std::size_t i) const noexcept;
private:
constexpr Error loadMapBlock(size_t idx) const noexcept;
constexpr ox::Error loadMapBlock(std::size_t id) const noexcept;
};
@@ -44,7 +43,7 @@ constexpr FieldBitmapReader<Reader>::FieldBitmapReader(Reader &reader) noexcept:
}
template<Reader_c Reader>
constexpr Result<bool> FieldBitmapReader<Reader>::get(size_t idx) const noexcept {
constexpr Result<bool> FieldBitmapReader<Reader>::get(std::size_t idx) const noexcept {
constexpr auto blockBits = sizeof(m_mapBlock);
auto const blockIdx = idx / blockBits;
if (m_mapBlockIdx != blockIdx) [[unlikely]] {
@@ -55,15 +54,15 @@ constexpr Result<bool> FieldBitmapReader<Reader>::get(size_t idx) const noexcept
}
template<Reader_c Reader>
constexpr Error FieldBitmapReader<Reader>::loadMapBlock(size_t const idx) const noexcept {
constexpr ox::Error FieldBitmapReader<Reader>::loadMapBlock(std::size_t idx) const noexcept {
OX_REQUIRE(g, m_reader.tellg());
OX_RETURN_ERROR(m_reader.seekg(static_cast<int>(m_mapStart + idx), ox::ios_base::beg));
Array<char, sizeof(m_mapBlock)> mapBlock{};
ox::Array<char, sizeof(m_mapBlock)> mapBlock{};
OX_RETURN_ERROR(m_reader.read(mapBlock.data(), sizeof(m_mapBlock)));
// Warning: narrow-conv
OX_RETURN_ERROR(m_reader.seekg(static_cast<int>(g), ox::ios_base::beg));
m_mapBlock = 0;
for (uint64_t i{}; auto b : mapBlock) {
for (auto i = 0ull; auto b : mapBlock) {
m_mapBlock |= static_cast<uint64_t>(std::bit_cast<uint8_t>(b)) << i;
i += 8;
}
@@ -75,17 +74,17 @@ constexpr Error FieldBitmapReader<Reader>::loadMapBlock(size_t const idx) const
template<typename T>
class FieldBitmapWriterBase {
protected:
Span<T> m_map;
size_t m_mapLen = 0;
T m_map = nullptr;
std::size_t m_mapLen = 0;
public:
explicit constexpr FieldBitmapWriterBase(Span<T> map) noexcept;
constexpr FieldBitmapWriterBase(T map, std::size_t maxLen) noexcept;
constexpr auto setBuffer(Span<T> map) noexcept;
constexpr auto setBuffer(T map, std::size_t maxLen) noexcept;
constexpr Result<bool> get(size_t i) const noexcept;
constexpr Result<bool> get(std::size_t i) const noexcept;
constexpr Error setFields(int) noexcept;
constexpr void setFields(int) noexcept;
constexpr void setMaxLen(int) noexcept;
@@ -95,38 +94,34 @@ class FieldBitmapWriterBase {
};
template<typename T>
constexpr FieldBitmapWriterBase<T>::FieldBitmapWriterBase(Span<T> map) noexcept:
m_map(map),
m_mapLen(m_map.size()) {
}
template<typename T>
constexpr auto FieldBitmapWriterBase<T>::setBuffer(Span<T> map) noexcept {
constexpr FieldBitmapWriterBase<T>::FieldBitmapWriterBase(T map, std::size_t maxLen) noexcept {
m_map = map;
m_mapLen = map.size();
m_mapLen = maxLen;
}
template<typename T>
constexpr Result<bool> FieldBitmapWriterBase<T>::get(size_t const i) const noexcept {
constexpr auto FieldBitmapWriterBase<T>::setBuffer(T map, std::size_t maxLen) noexcept {
m_map = map;
m_mapLen = maxLen;
}
template<typename T>
constexpr Result<bool> FieldBitmapWriterBase<T>::get(std::size_t i) const noexcept {
if (i / 8 < m_mapLen) {
return (m_map[i / 8] >> (i % 8)) & 1;
} else {
return Error{McPresenceMapOverflow};
return ox::Error(McPresenceMapOverflow);
}
}
template<typename T>
constexpr Error FieldBitmapWriterBase<T>::setFields(int const fields) noexcept {
m_mapLen = static_cast<size_t>((fields / 8 + 1) - (fields % 8 == 0));
if (m_mapLen > m_map.size()) [[unlikely]] {
return Error{McPresenceMapOverflow};
}
return {};
constexpr void FieldBitmapWriterBase<T>::setFields(int fields) noexcept {
m_mapLen = static_cast<std::size_t>((fields / 8 + 1) - (fields % 8 == 0));
}
template<typename T>
constexpr void FieldBitmapWriterBase<T>::setMaxLen(int const maxLen) noexcept {
m_mapLen = static_cast<size_t>(maxLen);
constexpr void FieldBitmapWriterBase<T>::setMaxLen(int maxLen) noexcept {
m_mapLen = static_cast<std::size_t>(maxLen);
}
template<typename T>
@@ -134,32 +129,34 @@ constexpr int64_t FieldBitmapWriterBase<T>::getMaxLen() const noexcept {
return static_cast<int64_t>(m_mapLen);
}
extern template class FieldBitmapWriterBase<uint8_t>;
extern template class FieldBitmapWriterBase<uint8_t const>;
extern template class FieldBitmapWriterBase<uint8_t*>;
extern template class FieldBitmapWriterBase<const uint8_t*>;
class FieldBitmap: public FieldBitmapWriterBase<uint8_t> {
class FieldBitmap: public FieldBitmapWriterBase<uint8_t*> {
public:
explicit constexpr FieldBitmap(Span<uint8_t> map) noexcept;
constexpr FieldBitmap(uint8_t *map, std::size_t maxLen) noexcept;
constexpr Error set(size_t i, bool on) noexcept;
constexpr Error set(std::size_t i, bool on) noexcept;
};
constexpr FieldBitmap::FieldBitmap(Span<uint8_t> map) noexcept:
FieldBitmapWriterBase(map) {
constexpr FieldBitmap::FieldBitmap(uint8_t *map, std::size_t maxLen) noexcept:
FieldBitmapWriterBase<uint8_t*>(map, maxLen) {
}
constexpr Error FieldBitmap::set(size_t const i, bool const on) noexcept {
constexpr Error FieldBitmap::set(std::size_t i, bool on) noexcept {
if (i / 8 < m_mapLen) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
if (on) {
m_map[i / 8] |= 1 << (i % 8);
} else {
m_map[i / 8] &= ~static_cast<uint8_t>(1 << (i % 8));
}
OX_ALLOW_UNSAFE_BUFFERS_END
return {};
} else {
return Error(McPresenceMapOverflow);
return ox::Error(McPresenceMapOverflow);
}
}

265
deps/ox/src/ox/mc/read.hpp vendored
View File

@@ -32,58 +32,58 @@ class MetalClawReaderTemplate: public ModelHandlerBase<MetalClawReaderTemplate<R
private:
FieldBitmapReader<Reader> m_fieldPresence;
size_t m_fields{};
size_t m_field{};
Optional<int> const m_unionIdx{};
std::size_t m_fields = 0;
std::size_t m_field = 0;
ox::Optional<int> m_unionIdx;
Reader &m_reader;
public:
explicit constexpr MetalClawReaderTemplate(
Reader &reader,
Optional<int> const &unionIdx = {}) noexcept;
ox::Optional<int> const&unionIdx = {}) noexcept;
constexpr ~MetalClawReaderTemplate() noexcept;
constexpr Error field(CString, int8_t *val) noexcept;
constexpr Error field(CString, int16_t *val) noexcept;
constexpr Error field(CString, int32_t *val) noexcept;
constexpr Error field(CString, int64_t *val) noexcept;
constexpr Error field(const char*, int8_t *val) noexcept;
constexpr Error field(const char*, int16_t *val) noexcept;
constexpr Error field(const char*, int32_t *val) noexcept;
constexpr Error field(const char*, int64_t *val) noexcept;
constexpr Error field(CString, uint8_t *val) noexcept;
constexpr Error field(CString, uint16_t *val) noexcept;
constexpr Error field(CString, uint32_t *val) noexcept;
constexpr Error field(CString, uint64_t *val) noexcept;
constexpr Error field(const char*, uint8_t *val) noexcept;
constexpr Error field(const char*, uint16_t *val) noexcept;
constexpr Error field(const char*, uint32_t *val) noexcept;
constexpr Error field(const char*, uint64_t *val) noexcept;
constexpr Error field(CString, bool *val) noexcept;
constexpr Error field(const char*, bool *val) noexcept;
// array handler
constexpr Error field(CString, auto *val, size_t valLen) noexcept;
constexpr Error field(const char*, auto *val, std::size_t len) noexcept;
// map handler
template<typename T>
constexpr Error field(CString, HashMap<String, T> *val) noexcept;
constexpr Error field(const char*, HashMap<String, T> *val) noexcept;
// array handler, with callback to allow handling individual elements
template<typename T, typename CB>
constexpr Error field(CString, CB cb) noexcept;
constexpr Error field(const char*, CB cb) noexcept;
template<typename T>
constexpr Error field(CString, T *val) noexcept;
constexpr Error field(const char*, T *val) noexcept;
template<typename U, bool force>
constexpr Error field(CString, UnionView<U, force> val) noexcept;
constexpr Error field(const char*, UnionView<U, force> val) noexcept;
template<size_t SmallStringSize>
constexpr Error field(CString, BasicString<SmallStringSize> *val) noexcept;
template<std::size_t SmallStringSize>
constexpr Error field(const char*, BasicString<SmallStringSize> *val) noexcept;
template<size_t L>
constexpr Error field(CString, IString<L> *val) noexcept;
template<std::size_t L>
constexpr Error field(const char*, IString<L> *val) noexcept;
constexpr Error fieldCString(CString, char *val, size_t buffLen) noexcept;
constexpr Error fieldCString(const char*, char *val, std::size_t buffLen) noexcept;
constexpr Error fieldCString(CString, char **val) noexcept;
constexpr Error fieldCString(const char*, char **val) noexcept;
constexpr Error fieldCString(CString, char **val, size_t buffLen) noexcept;
constexpr Error fieldCString(const char*, char **val, std::size_t buffLen) noexcept;
/**
* Reads an array length from the current location in the buffer.
@@ -101,13 +101,13 @@ class MetalClawReaderTemplate: public ModelHandlerBase<MetalClawReaderTemplate<R
const char *name = T::TypeName,
int version = T::TypeVersion,
const Vector<String>& = {},
size_t fields = ModelFieldCount_v<T>) noexcept;
std::size_t fields = ModelFieldCount_v<T>) noexcept;
/**
* Returns a MetalClawReader to parse a child object.
*/
[[nodiscard]]
constexpr MetalClawReaderTemplate<Reader> child(const char *name, Optional<int> unionIdx = {}) noexcept;
constexpr MetalClawReaderTemplate<Reader> child(const char *name, ox::Optional<int> unionIdx = {}) noexcept;
/**
* Indicates whether or not the next field to be read is present.
@@ -122,20 +122,20 @@ class MetalClawReaderTemplate: public ModelHandlerBase<MetalClawReaderTemplate<R
constexpr bool fieldPresent(int fieldNo) const noexcept;
[[nodiscard]]
constexpr int whichFieldPresent(const char *name, ModelUnion const&) const noexcept;
constexpr int whichFieldPresent(const char *name, const ModelUnion&) const noexcept;
constexpr void nextField() noexcept;
private:
template<typename I>
constexpr Error readInteger(I &val) noexcept;
constexpr Error readInteger(I *val) noexcept;
};
template<Reader_c Reader>
constexpr MetalClawReaderTemplate<Reader>::MetalClawReaderTemplate(
Reader &reader,
Optional<int> const &unionIdx) noexcept:
ox::Optional<int> const&unionIdx) noexcept:
m_fieldPresence(reader),
m_unionIdx(unionIdx),
m_reader(reader) {
@@ -149,50 +149,50 @@ constexpr MetalClawReaderTemplate<Reader>::~MetalClawReaderTemplate() noexcept {
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, int8_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, int8_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, int16_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, int16_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, int32_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, int32_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, int64_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, int64_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, uint8_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, uint8_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, uint16_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, uint16_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, uint32_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, uint32_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, uint64_t *val) noexcept {
return readInteger(*val);
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, uint64_t *val) noexcept {
return readInteger(val);
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, bool *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
auto const result = m_fieldPresence.get(static_cast<size_t>(m_field));
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, bool *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
auto const result = m_fieldPresence.get(static_cast<std::size_t>(m_field));
*val = result.value;
OX_RETURN_ERROR(result);
}
@@ -202,19 +202,18 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, bool *val) noexc
// array handler
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::field(
const char *name, auto *val, size_t const valLen) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::field(const char *name, auto *val, std::size_t valLen) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, &bytesRead));
// read the list
if (valLen >= len) {
auto reader = child({});
auto &handler = *reader.interface();
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<size_t>(len)));
for (size_t i = 0; i < len; ++i) {
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<std::size_t>(len)));
for (std::size_t i = 0; i < len; ++i) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
OX_RETURN_ERROR(handler.field({}, &val[i]));
OX_ALLOW_UNSAFE_BUFFERS_END
@@ -231,18 +230,18 @@ OX_ALLOW_UNSAFE_BUFFERS_END
template<Reader_c Reader>
template<typename T>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, HashMap<String, T> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, HashMap<String, T> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
OX_REQUIRE(g, m_reader.tellg());
size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, &bytesRead));
OX_RETURN_ERROR(m_reader.seekg(g));
// read the list
auto reader = child("");
auto &handler = *reader.interface();
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<size_t>(len)));
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<std::size_t>(len)));
// this loop body needs to be in a lambda because of the potential alloca call
constexpr auto loopBody = [](auto &handler, auto &val) {
OX_REQUIRE(keyLen, handler.stringLength(nullptr));
@@ -251,7 +250,7 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, HashMap<String,
OX_RETURN_ERROR(handler.fieldCString("", &wkeyPtr, keyLen + 1));
return handler.field("", &val[wkeyPtr]);
};
for (size_t i = 0; i < len; ++i) {
for (std::size_t i = 0; i < len; ++i) {
OX_RETURN_ERROR(loopBody(handler, *val));
}
}
@@ -264,9 +263,9 @@ template<Reader_c Reader>
template<typename T>
constexpr Error MetalClawReaderTemplate<Reader>::field(const char *name, T *val) noexcept {
if constexpr(isVector_v<T>) {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
// set size of val if the field is present, don't worry about it if not
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
OX_REQUIRE(len, arrayLength(name, false));
OX_RETURN_ERROR(ox::resizeVector(*val, len));
return field(name, val->data(), val->size());
@@ -276,9 +275,9 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(const char *name, T *val)
++m_field;
return {};
} else if constexpr(isArray_v<T>) {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
// set size of val if the field is present, don't worry about it if not
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
OX_REQUIRE(len, arrayLength(name, false));
if (len > val->size()) {
return ox::Error(1, "Input array is too long");
@@ -289,8 +288,8 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(const char *name, T *val)
++m_field;
return {};
} else {
if ((!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) && val) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
if ((!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) && val) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
auto reader = child("");
OX_RETURN_ERROR(model(reader.interface(), val));
}
@@ -302,9 +301,9 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(const char *name, T *val)
template<Reader_c Reader>
template<typename U, bool force>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, UnionView<U, force> val) noexcept {
if ((!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) && val.get()) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, UnionView<U, force> val) noexcept {
if ((!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) && val.get()) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
auto reader = child("", ox::Optional<int>(ox::in_place, val.idx()));
OX_RETURN_ERROR(model(reader.interface(), val.get()));
}
@@ -314,13 +313,13 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, UnionView<U, for
}
template<Reader_c Reader>
template<size_t SmallStringSize>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, BasicString<SmallStringSize> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
template<std::size_t SmallStringSize>
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, BasicString<SmallStringSize> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, &bytesRead));
const auto cap = size;
*val = BasicString<SmallStringSize>(cap);
auto data = val->data();
@@ -335,13 +334,13 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, BasicString<Smal
}
template<Reader_c Reader>
template<size_t L>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, IString<L> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
template<std::size_t L>
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, IString<L> *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, &bytesRead));
*val = IString<L>();
OX_RETURN_ERROR(val->resize(size));
auto const data = val->data();
@@ -356,12 +355,11 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, IString<L> *val)
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(
CString, char *val, size_t const buffLen) noexcept {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(const char*, char *val, std::size_t buffLen) noexcept {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, &bytesRead));
if (size > buffLen) {
return ox::Error(McOutputBuffEnded);
}
@@ -376,11 +374,11 @@ constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(CString, char **val) noexcept {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(const char*, char **val) noexcept {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, &bytesRead));
// re-allocate in case too small
safeDelete(*val);
*val = new char[size + 1];
@@ -394,12 +392,12 @@ constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(CString, char **va
}
template<Reader_c Reader>
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(CString, char **val, size_t buffLen) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(const char*, char **val, std::size_t buffLen) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(size, mc::decodeInteger<StringLength>(m_reader, &bytesRead));
// re-allocate if too small
if (buffLen < size + 1) {
safeDelete(*val);
@@ -422,13 +420,13 @@ constexpr Error MetalClawReaderTemplate<Reader>::fieldCString(CString, char **va
}
template<Reader_c Reader>
constexpr Result<ArrayLength> MetalClawReaderTemplate<Reader>::arrayLength(CString, bool const pass) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Result<ArrayLength> MetalClawReaderTemplate<Reader>::arrayLength(const char*, bool pass) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
std::size_t bytesRead = 0;
OX_REQUIRE(g, m_reader.tellg());
OX_REQUIRE(out, mc::decodeInteger<ArrayLength>(m_reader, bytesRead));
OX_REQUIRE(out, mc::decodeInteger<ArrayLength>(m_reader, &bytesRead));
if (!pass) {
OX_RETURN_ERROR(m_reader.seekg(g));
}
@@ -439,12 +437,12 @@ constexpr Result<ArrayLength> MetalClawReaderTemplate<Reader>::arrayLength(CStri
}
template<Reader_c Reader>
constexpr Result<StringLength> MetalClawReaderTemplate<Reader>::stringLength(CString) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Result<StringLength> MetalClawReaderTemplate<Reader>::stringLength(const char*) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
auto len = mc::decodeInteger<StringLength>(m_reader, bytesRead);
std::size_t bytesRead = 0;
auto len = mc::decodeInteger<StringLength>(m_reader, &bytesRead);
OX_RETURN_ERROR(m_reader.seekg(-static_cast<int64_t>(bytesRead), ox::ios_base::cur));
return len;
}
@@ -454,15 +452,15 @@ constexpr Result<StringLength> MetalClawReaderTemplate<Reader>::stringLength(CSt
template<Reader_c Reader>
template<typename I>
constexpr Error MetalClawReaderTemplate<Reader>::readInteger(I &val) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
size_t bytesRead = 0;
auto const result = mc::decodeInteger<I>(m_reader, bytesRead);
constexpr Error MetalClawReaderTemplate<Reader>::readInteger(I *val) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
std::size_t bytesRead = 0;
auto const result = mc::decodeInteger<I>(m_reader, &bytesRead);
OX_RETURN_ERROR(result);
val = result.value;
*val = result.value;
} else {
val = 0;
*val = 0;
}
}
++m_field;
@@ -471,17 +469,17 @@ constexpr Error MetalClawReaderTemplate<Reader>::readInteger(I &val) noexcept {
template<Reader_c Reader>
template<typename T, typename CB>
constexpr Error MetalClawReaderTemplate<Reader>::field(CString, CB cb) noexcept {
if (!m_unionIdx.has_value() || static_cast<size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<size_t>(m_field))) {
constexpr Error MetalClawReaderTemplate<Reader>::field(const char*, CB cb) noexcept {
if (!m_unionIdx.has_value() || static_cast<std::size_t>(*m_unionIdx) == m_field) {
if (m_fieldPresence.get(static_cast<std::size_t>(m_field))) {
// read the length
size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, bytesRead));
std::size_t bytesRead = 0;
OX_REQUIRE(len, mc::decodeInteger<ArrayLength>(m_reader, &bytesRead));
// read the list
auto reader = child("");
auto &handler = *reader.interface();
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<size_t>(len)));
for (size_t i = 0; i < len; ++i) {
OX_RETURN_ERROR(handler.setTypeInfo("List", 0, {}, static_cast<std::size_t>(len)));
for (std::size_t i = 0; i < len; ++i) {
T val;
OX_RETURN_ERROR(handler.field("", &val));
OX_RETURN_ERROR(cb(i, &val));
@@ -495,7 +493,7 @@ constexpr Error MetalClawReaderTemplate<Reader>::field(CString, CB cb) noexcept
template<Reader_c Reader>
template<typename T>
constexpr ox::Error MetalClawReaderTemplate<Reader>::setTypeInfo(
CString, int, const Vector<String>&, size_t const fields) noexcept {
const char*, int, const Vector<String>&, std::size_t fields) noexcept {
m_fields = fields;
// Warning: narrow-conv
return m_reader.seekg(
@@ -505,24 +503,24 @@ constexpr ox::Error MetalClawReaderTemplate<Reader>::setTypeInfo(
template<Reader_c Reader>
constexpr MetalClawReaderTemplate<Reader> MetalClawReaderTemplate<Reader>::child(
CString,
Optional<int> const unionIdx) noexcept {
const char*,
ox::Optional<int> unionIdx) noexcept {
return MetalClawReaderTemplate<Reader>(m_reader, unionIdx);
}
template<Reader_c Reader>
constexpr bool MetalClawReaderTemplate<Reader>::fieldPresent(CString) const noexcept {
return m_fieldPresence.get(static_cast<size_t>(m_field)).value;
constexpr bool MetalClawReaderTemplate<Reader>::fieldPresent(const char*) const noexcept {
return m_fieldPresence.get(static_cast<std::size_t>(m_field)).value;
}
template<Reader_c Reader>
constexpr bool MetalClawReaderTemplate<Reader>::fieldPresent(int const fieldNo) const noexcept {
return m_fieldPresence.get(static_cast<size_t>(fieldNo)).value;
constexpr bool MetalClawReaderTemplate<Reader>::fieldPresent(int fieldNo) const noexcept {
return m_fieldPresence.get(static_cast<std::size_t>(fieldNo)).value;
}
template<Reader_c Reader>
[[nodiscard]]
constexpr int MetalClawReaderTemplate<Reader>::whichFieldPresent(CString, ModelUnion const &u) const noexcept {
constexpr int MetalClawReaderTemplate<Reader>::whichFieldPresent(const char*, const ModelUnion &u) const noexcept {
FieldBitmapReader<Reader> p(m_reader);
for (auto i = 0u; i < u.fieldCount(); ++i) {
if (p.get(i)) {
@@ -540,10 +538,11 @@ constexpr void MetalClawReaderTemplate<Reader>::nextField() noexcept {
using MetalClawReader = MetalClawReaderTemplate<ox::BufferReader>;
template<typename T>
Error readMC(ox::BufferView const buff, T &val) noexcept {
Error readMC(ox::BufferView buff, T &val) noexcept {
BufferReader br(buff);
MetalClawReader reader(br);
return model(reader.interface(), &val);
ModelHandlerInterface<MetalClawReader, ox::OpType::Read> handler(&reader);
return model(&handler, &val);
}
template<typename T>

3
deps/ox/src/ox/mc/test/tests.cpp vendored
View File

@@ -157,7 +157,8 @@ std::map<ox::StringView, ox::Error(*)()> tests = {
oxAssert(testIn.Int8 == testOut.Int8, "Int8 value mismatch");
oxAssert(testIn.Union.Int == testOut.Union.Int, "Union.Int value mismatch");
oxAssert(testIn.String == testOut.String, "String value mismatch");
ox::expect(testIn.IString, testOut.IString);
oxDebugf("{}", testOut.IString.len());
oxExpect(testIn.IString, testOut.IString);
oxAssert(testIn.List[0] == testOut.List[0], "List[0] value mismatch");
oxAssert(testIn.List[1] == testOut.List[1], "List[1] value mismatch");
oxAssert(testIn.List[2] == testOut.List[2], "List[2] value mismatch");

217
deps/ox/src/ox/mc/write.hpp vendored
View File

@@ -32,68 +32,68 @@ template<Writer_c Writer>
class MetalClawWriter {
private:
Vector<uint8_t, 16> m_presenceMapBuff{};
ox::Vector<uint8_t, 16> m_presenceMapBuff{};
FieldBitmap m_fieldPresence;
int m_field = 0;
Optional<int> m_unionIdx;
size_t m_writerBeginP{};
ox::Optional<int> m_unionIdx;
std::size_t m_writerBeginP{};
Writer &m_writer;
public:
constexpr explicit MetalClawWriter(Writer &writer, Optional<int> const &unionIdx = {}) noexcept;
constexpr explicit MetalClawWriter(Writer &writer, ox::Optional<int> const&unionIdx = {}) noexcept;
constexpr ~MetalClawWriter() noexcept = default;
constexpr Error field(CString, int8_t const *val) noexcept;
constexpr Error field(CString, int16_t const *val) noexcept;
constexpr Error field(CString, int32_t const *val) noexcept;
constexpr Error field(CString, int64_t const *val) noexcept;
constexpr Error field(const char*, const int8_t *val) noexcept;
constexpr Error field(const char*, const int16_t *val) noexcept;
constexpr Error field(const char*, const int32_t *val) noexcept;
constexpr Error field(const char*, const int64_t *val) noexcept;
constexpr Error field(CString, uint8_t const *val) noexcept;
constexpr Error field(CString, uint16_t const *val) noexcept;
constexpr Error field(CString, uint32_t const *val) noexcept;
constexpr Error field(CString, uint64_t const *val) noexcept;
constexpr Error field(const char*, const uint8_t *val) noexcept;
constexpr Error field(const char*, const uint16_t *val) noexcept;
constexpr Error field(const char*, const uint32_t *val) noexcept;
constexpr Error field(const char*, const uint64_t *val) noexcept;
constexpr Error field(CString, bool const *val) noexcept;
constexpr Error field(const char*, const bool *val) noexcept;
template<typename T>
constexpr Error field(CString, T const *val, size_t len) noexcept;
constexpr Error field(const char*, const T *val, std::size_t len) noexcept;
template<typename T>
constexpr Error field(CString name, HashMap<String, T> const *val) noexcept;
constexpr Error field(const char *name, const HashMap<String, T> *val) noexcept;
template<size_t SmallStringSize>
constexpr Error field(CString, BasicString<SmallStringSize> const *val) noexcept;
template<std::size_t SmallStringSize>
constexpr Error field(const char*, const BasicString<SmallStringSize> *val) noexcept;
template<size_t L>
constexpr Error field(CString, IString<L> const *val) noexcept;
template<std::size_t L>
constexpr Error field(const char*, const IString<L> *val) noexcept;
constexpr Error fieldCString(CString name, CString const*val, size_t buffLen) noexcept;
constexpr Error fieldCString(const char *name, const char *const*val, std::size_t buffLen) noexcept;
constexpr Error fieldCString(CString name, CString *val) noexcept;
constexpr Error fieldCString(const char *name, const char **val) noexcept;
constexpr Error fieldCString(CString name, CString const*val) noexcept;
constexpr Error fieldCString(const char *name, const char *const*val) noexcept;
constexpr Error fieldCString(CString name, CString val, size_t strLen) noexcept;
constexpr Error fieldCString(const char *name, const char *val, std::size_t len) noexcept;
template<typename T>
constexpr Error field(CString, T const *val) noexcept;
constexpr Error field(const char*, const T *val) noexcept;
template<typename U, bool force = false>
constexpr Error field(CString, UnionView<U, force> val) noexcept;
constexpr Error field(const char*, UnionView<U, force> val) noexcept;
template<typename T = std::nullptr_t>
constexpr Error setTypeInfo(
CString name = T::TypeName,
constexpr ox::Error setTypeInfo(
const char *name = T::TypeName,
int version = T::TypeVersion,
Vector<String> const& = {},
size_t fields = ModelFieldCount_v<T>) noexcept;
const Vector<String>& = {},
std::size_t fields = ModelFieldCount_v<T>) noexcept;
/**
* stringLength is not implemented in MetalClawWriter
*/
[[nodiscard]]
constexpr auto stringLength(CString) noexcept {
constexpr auto stringLength(const char*) noexcept {
return 0;
}
@@ -101,7 +101,7 @@ class MetalClawWriter {
* stringLength is not implemented in MetalClawWriter
*/
[[nodiscard]]
constexpr auto arrayLength(CString, bool = true) noexcept {
constexpr auto arrayLength(const char*, bool = true) noexcept {
return 0;
}
@@ -110,17 +110,17 @@ class MetalClawWriter {
return OpType::Write;
}
Error finalize() noexcept;
ox::Error finalize() noexcept;
private:
constexpr Error appendInteger(Integer_c auto val) noexcept {
bool fieldSet = false;
if (val && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
auto mi = mc::encodeInteger(val);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(mi.data.data()), mi.length));
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(mi.data.data()), mi.length));
fieldSet = true;
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
@@ -131,136 +131,136 @@ extern template class ModelHandlerInterface<MetalClawWriter<BufferWriter>>;
extern template class ModelHandlerInterface<MetalClawWriter<CharBuffWriter>>;
template<Writer_c Writer>
constexpr MetalClawWriter<Writer>::MetalClawWriter(Writer &writer, Optional<int> const &unionIdx) noexcept:
m_fieldPresence(m_presenceMapBuff),
constexpr MetalClawWriter<Writer>::MetalClawWriter(Writer &writer, ox::Optional<int> const&unionIdx) noexcept:
m_fieldPresence(m_presenceMapBuff.data(), m_presenceMapBuff.size()),
m_unionIdx(unionIdx),
m_writerBeginP(writer.tellp()),
m_writer(writer) {
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, int8_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const int8_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, int16_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const int16_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, int32_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const int32_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, int64_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const int64_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, uint8_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const uint8_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, uint16_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const uint16_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, uint32_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const uint32_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, uint64_t const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const uint64_t *val) noexcept {
return appendInteger(*val);
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::field(CString, bool const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const bool *val) noexcept {
if (!m_unionIdx.has_value() || *m_unionIdx == m_field) {
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), *val));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), *val));
}
++m_field;
return {};
}
template<Writer_c Writer>
template<size_t SmallStringSize>
constexpr Error MetalClawWriter<Writer>::field(CString, BasicString<SmallStringSize> const *val) noexcept {
template<std::size_t SmallStringSize>
constexpr Error MetalClawWriter<Writer>::field(const char*, const BasicString<SmallStringSize> *val) noexcept {
bool fieldSet = false;
if (val->size() && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
if (val->len() && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
// write the length
auto const strLen = mc::encodeInteger(val->size());
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(strLen.data.data()), strLen.length));
const auto strLen = mc::encodeInteger(val->len());
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(strLen.data.data()), strLen.length));
// write the string
OX_RETURN_ERROR(m_writer.write(val->c_str(), static_cast<size_t>(val->size())));
OX_RETURN_ERROR(m_writer.write(val->c_str(), static_cast<std::size_t>(val->len())));
fieldSet = true;
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
template<size_t L>
constexpr Error MetalClawWriter<Writer>::field(CString name, IString<L> const *val) noexcept {
return fieldCString(name, val->data(), val->size());
template<std::size_t L>
constexpr Error MetalClawWriter<Writer>::field(const char *name, const IString<L> *val) noexcept {
return fieldCString(name, val->data(), val->len());
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::fieldCString(CString, CString const *val, size_t) noexcept {
constexpr Error MetalClawWriter<Writer>::fieldCString(const char*, const char *const*val, std::size_t) noexcept {
bool fieldSet = false;
if (!m_unionIdx.has_value() || *m_unionIdx == m_field) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
// this strlen is tolerated because sometimes 0 gets passed to
// the size param, which is a lie
// this code should be cleaned up at some point...
auto const strLen = *val ? ox::strlen(*val) : 0;
const auto strLen = *val ? ox::strlen(*val) : 0;
OX_ALLOW_UNSAFE_BUFFERS_END
// write the length
auto const strLenBuff = mc::encodeInteger(strLen);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(strLenBuff.data.data()), strLenBuff.length));
const auto strLenBuff = mc::encodeInteger(strLen);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(strLenBuff.data.data()), strLenBuff.length));
// write the string
OX_RETURN_ERROR(m_writer.write(*val, static_cast<size_t>(strLen)));
OX_RETURN_ERROR(m_writer.write(*val, static_cast<std::size_t>(strLen)));
fieldSet = true;
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::fieldCString(CString const name, CString *val) noexcept {
constexpr Error MetalClawWriter<Writer>::fieldCString(const char *name, const char **val) noexcept {
return fieldCString(name, val, {});
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::fieldCString(CString const name, CString const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::fieldCString(const char *name, const char *const*val) noexcept {
return fieldCString(name, val, {});
}
template<Writer_c Writer>
constexpr Error MetalClawWriter<Writer>::fieldCString(CString, CString const val, size_t const strLen) noexcept {
constexpr Error MetalClawWriter<Writer>::fieldCString(const char*, const char *val, std::size_t strLen) noexcept {
bool fieldSet = false;
if (strLen && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
// write the length
auto const strLenBuff = mc::encodeInteger(strLen);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(strLenBuff.data.data()), strLenBuff.length));
const auto strLenBuff = mc::encodeInteger(strLen);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(strLenBuff.data.data()), strLenBuff.length));
// write the string
OX_RETURN_ERROR(m_writer.write(val, static_cast<size_t>(strLen)));
OX_RETURN_ERROR(m_writer.write(val, static_cast<std::size_t>(strLen)));
fieldSet = true;
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
template<typename T>
constexpr Error MetalClawWriter<Writer>::field(CString, T const *val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const T *val) noexcept {
if constexpr(isVector_v<T> || isArray_v<T>) {
return field(nullptr, val->data(), val->size());
} else {
@@ -268,12 +268,12 @@ constexpr Error MetalClawWriter<Writer>::field(CString, T const *val) noexcept {
if (val && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
auto const writeIdx = m_writer.tellp();
MetalClawWriter<Writer> writer(m_writer);
ModelHandlerInterface<MetalClawWriter<Writer>> handler{writer};
ModelHandlerInterface<MetalClawWriter<Writer>> handler{&writer};
OX_RETURN_ERROR(model(&handler, val));
OX_RETURN_ERROR(writer.finalize());
fieldSet = writeIdx != m_writer.tellp();
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
@@ -281,35 +281,35 @@ constexpr Error MetalClawWriter<Writer>::field(CString, T const *val) noexcept {
template<Writer_c Writer>
template<typename U, bool force>
constexpr Error MetalClawWriter<Writer>::field(CString, UnionView<U, force> val) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, UnionView<U, force> val) noexcept {
bool fieldSet = false;
if (val.get() && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
auto const writeIdx = m_writer.tellp();
MetalClawWriter<Writer> writer(m_writer, Optional<int>(in_place, val.idx()));
ModelHandlerInterface handler{writer};
MetalClawWriter<Writer> writer(m_writer, ox::Optional<int>(ox::in_place, val.idx()));
ModelHandlerInterface handler{&writer};
OX_RETURN_ERROR(model(&handler, val.get()));
OX_RETURN_ERROR(writer.finalize());
fieldSet = writeIdx != m_writer.tellp();
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
template<typename T>
constexpr Error MetalClawWriter<Writer>::field(CString, T const *val, size_t const len) noexcept {
constexpr Error MetalClawWriter<Writer>::field(const char*, const T *val, std::size_t len) noexcept {
bool fieldSet = false;
if (len && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
// write the length
auto const arrLen = mc::encodeInteger(len);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(arrLen.data.data()), arrLen.length));
const auto arrLen = mc::encodeInteger(len);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(arrLen.data.data()), arrLen.length));
auto const writeIdx = m_writer.tellp();
MetalClawWriter<Writer> writer(m_writer);
ModelHandlerInterface handler{writer};
OX_RETURN_ERROR(handler.template setTypeInfo<T>("List", 0, {}, static_cast<size_t>(len)));
ModelHandlerInterface handler{&writer};
OX_RETURN_ERROR(handler.template setTypeInfo<T>("List", 0, {}, static_cast<std::size_t>(len)));
// write the array
for (size_t i{}; i < len; ++i) {
for (std::size_t i = 0; i < len; ++i) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
OX_RETURN_ERROR(handler.field("", &val[i]));
OX_ALLOW_UNSAFE_BUFFERS_END
@@ -317,29 +317,29 @@ OX_ALLOW_UNSAFE_BUFFERS_END
OX_RETURN_ERROR(writer.finalize());
fieldSet = writeIdx != m_writer.tellp();
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
template<typename T>
constexpr Error MetalClawWriter<Writer>::field(CString, HashMap<String, T> const *val) noexcept {
auto const &keys = val->keys();
auto const len = keys.size();
constexpr Error MetalClawWriter<Writer>::field(const char*, const HashMap<String, T> *val) noexcept {
const auto &keys = val->keys();
const auto len = keys.size();
bool fieldSet = false;
if (len && (!m_unionIdx.has_value() || *m_unionIdx == m_field)) {
// write the length
auto const arrLen = mc::encodeInteger(len);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<CString>(arrLen.data.data()), arrLen.length));
const auto arrLen = mc::encodeInteger(len);
OX_RETURN_ERROR(m_writer.write(reinterpret_cast<const char*>(arrLen.data.data()), arrLen.length));
// write map
MetalClawWriter<Writer> writer(m_writer);
ModelHandlerInterface handler{writer};
ModelHandlerInterface handler{&writer};
// double len for both key and value
OX_RETURN_ERROR(handler.setTypeInfo("Map", 0, {}, len * 2));
// this loop body needs to be in a lambda because of the potential alloca call
constexpr auto loopBody = [](auto &handler, auto const &key, auto const &val) -> Error {
auto const keyLen = key.size();
constexpr auto loopBody = [](auto &handler, auto const&key, auto const&val) -> ox::Error {
const auto keyLen = key.len();
auto wkey = ox_malloca(keyLen + 1, char, 0);
memcpy(wkey.get(), key.c_str(), keyLen + 1);
OX_RETURN_ERROR(handler.fieldCString("", wkey.get(), keyLen));
@@ -347,52 +347,53 @@ constexpr Error MetalClawWriter<Writer>::field(CString, HashMap<String, T> const
return handler.field("", value);
};
// write the array
for (size_t i{}; i < len; ++i) {
auto const &key = keys[i];
for (std::size_t i = 0; i < len; ++i) {
auto const&key = keys[i];
OX_RETURN_ERROR(loopBody(handler, key, *val));
}
OX_RETURN_ERROR(writer.finalize());
fieldSet = true;
}
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<size_t>(m_field), fieldSet));
OX_RETURN_ERROR(m_fieldPresence.set(static_cast<std::size_t>(m_field), fieldSet));
++m_field;
return {};
}
template<Writer_c Writer>
template<typename T>
constexpr Error MetalClawWriter<Writer>::setTypeInfo(
CString,
constexpr ox::Error MetalClawWriter<Writer>::setTypeInfo(
const char*,
int,
Vector<String> const&,
size_t const fields) noexcept {
auto const fieldPresenceLen = (fields - 1) / 8 + 1;
const Vector<String>&,
std::size_t fields) noexcept {
const auto fieldPresenceLen = (fields - 1) / 8 + 1;
OX_RETURN_ERROR(m_writer.write(nullptr, fieldPresenceLen));
m_presenceMapBuff.resize(fieldPresenceLen);
m_fieldPresence.setBuffer(m_presenceMapBuff);
return m_fieldPresence.setFields(static_cast<int>(fields));
m_fieldPresence.setBuffer(m_presenceMapBuff.data(), m_presenceMapBuff.size());
m_fieldPresence.setFields(static_cast<int>(fields));
return {};
}
template<Writer_c Writer>
Error MetalClawWriter<Writer>::finalize() noexcept {
auto const end = m_writer.tellp();
ox::Error MetalClawWriter<Writer>::finalize() noexcept {
const auto end = m_writer.tellp();
OX_RETURN_ERROR(m_writer.seekp(m_writerBeginP));
OX_RETURN_ERROR(m_writer.write(
reinterpret_cast<CString>(m_presenceMapBuff.data()),
reinterpret_cast<const char*>(m_presenceMapBuff.data()),
m_presenceMapBuff.size()));
OX_RETURN_ERROR(m_writer.seekp(end));
return {};
}
Result<Buffer> writeMC(Writer_c auto &writer, auto const &val) noexcept {
Result<Buffer> writeMC(Writer_c auto &writer, const auto &val) noexcept {
MetalClawWriter mcWriter(writer);
ModelHandlerInterface handler{mcWriter};
ModelHandlerInterface handler{&mcWriter};
OX_RETURN_ERROR(model(&handler, &val));
OX_RETURN_ERROR(mcWriter.finalize());
return {};
}
Result<Buffer> writeMC(auto const &val, size_t const buffReserveSz = 2 * units::KB) noexcept {
Result<Buffer> writeMC(auto const&val, std::size_t buffReserveSz = 2 * units::KB) noexcept {
Buffer buff(buffReserveSz);
BufferWriter bw(&buff, 0);
OX_RETURN_ERROR(writeMC(bw, val));
@@ -400,7 +401,7 @@ Result<Buffer> writeMC(auto const &val, size_t const buffReserveSz = 2 * units::
return buff;
}
Error writeMC(char *buff, size_t const buffLen, auto const &val, size_t *sizeOut = nullptr) noexcept {
Error writeMC(char *buff, std::size_t buffLen, auto const&val, std::size_t *sizeOut = nullptr) noexcept {
CharBuffWriter bw{{buff, buffLen}};
OX_RETURN_ERROR(writeMC(bw, val));
if (sizeOut) {

2
deps/ox/src/ox/model/desctypes.hpp vendored
View File

@@ -43,7 +43,7 @@ static constexpr auto buildTypeId(
for (const auto &p : typeParams) {
tp += p + ",";
}
tp.resize(tp.size() - 1);
tp.resize(tp.len() - 1);
tp += "#";
}
return ox::sfmt("{}{};{}", name, tp, version);

8
deps/ox/src/ox/model/descwrite.hpp vendored
View File

@@ -187,7 +187,7 @@ constexpr ox::Error TypeDescWriter::setTypeInfo(
PrimitiveType pt;
if constexpr(is_union_v<T>) {
pt = PrimitiveType::Union;
} else if constexpr(isBasicString_v<T> || isIString_v<T>) {
} else if constexpr(isBasicString_v<T> || isBString_v<T>) {
pt = PrimitiveType::String;
} else {
pt = PrimitiveType::Struct;
@@ -357,7 +357,7 @@ constexpr const DescriptorType *TypeDescWriter::type(const char*) const noexcept
template<std::size_t sz>
constexpr const DescriptorType *TypeDescWriter::type(const IString<sz>*) const noexcept {
constexpr auto PT = PrimitiveType::String;
return getType(types::IString, 0, PT, 0);
return getType(types::BString, 0, PT, 0);
}
constexpr const DescriptorType *TypeDescWriter::getType(StringViewCR tn, int typeVersion, PrimitiveType pt, int b,
@@ -380,7 +380,7 @@ constexpr const DescriptorType *TypeDescWriter::getType(StringViewCR tn, int typ
template<typename T>
constexpr Result<DescriptorType*> buildTypeDef(TypeStore &typeStore) noexcept {
TypeDescWriter writer(&typeStore);
ModelHandlerInterface<TypeDescWriter, ox::OpType::Reflect> handler(writer);
ModelHandlerInterface<TypeDescWriter, ox::OpType::Reflect> handler(&writer);
if (std::is_constant_evaluated()) {
std::allocator<T> a;
T *t = a.allocate(1);
@@ -396,7 +396,7 @@ constexpr Result<DescriptorType*> buildTypeDef(TypeStore &typeStore) noexcept {
template<typename T>
constexpr Result<DescriptorType*> buildTypeDef(TypeStore &typeStore, T &val) noexcept {
TypeDescWriter writer(&typeStore);
ModelHandlerInterface<TypeDescWriter, ox::OpType::Reflect> handler(writer);
ModelHandlerInterface<TypeDescWriter, ox::OpType::Reflect> handler(&writer);
OX_RETURN_ERROR(model(&handler, &val));
return writer.definition();
}

82
deps/ox/src/ox/model/modelhandleradaptor.hpp vendored
View File

@@ -17,10 +17,10 @@ namespace ox {
template<typename Handler, OpType opType_v = Handler::opType()>
class ModelHandlerInterface {
private:
Handler &m_handler;
Handler *m_handler = nullptr;
public:
constexpr explicit ModelHandlerInterface(Handler &handler) noexcept: m_handler(handler) {
constexpr explicit ModelHandlerInterface(Handler *handler) noexcept: m_handler(handler) {
}
template<typename T = std::nullptr_t>
@@ -28,7 +28,7 @@ class ModelHandlerInterface {
const char* name = T::TypeName,
int version = T::TypeVersion,
const Vector<String>& typeParams = {}) noexcept {
return m_handler.template setTypeInfo<T>(name, version, typeParams, ModelFieldCount_v<T>);
return m_handler->template setTypeInfo<T>(name, version, typeParams, ModelFieldCount_v<T>);
}
template<typename T = std::nullptr_t>
@@ -37,31 +37,31 @@ class ModelHandlerInterface {
int version,
const Vector<String>& typeParams,
std::size_t fields) noexcept {
return m_handler.template setTypeInfo<T>(name, version, typeParams, fields);
return m_handler->template setTypeInfo<T>(name, version, typeParams, fields);
}
template<std::size_t len>
constexpr Error fieldCString(const char *name, char val[len]) noexcept {
return m_handler.fieldCString(name, &val[0], len);
return m_handler->fieldCString(name, &val[0], len);
}
template<std::size_t len>
constexpr Error fieldCString(const char *name, const char val[len]) noexcept requires(opType_v != OpType::Read) {
if constexpr(opType_v != OpType::Read) {
return m_handler.fieldCString(name, &val[0], len);
return m_handler->fieldCString(name, &val[0], len);
} else {
return {};
}
}
constexpr Error fieldCString(const char *name, char **val) noexcept {
return m_handler.fieldCString(name, val);
return m_handler->fieldCString(name, val);
}
constexpr Error fieldCString(const char *name, const char *const*val) noexcept requires(opType_v != OpType::Read) {
// this check looks pointless, but it's to address a Clang bug
if constexpr(opType_v != OpType::Read) {
return m_handler.fieldCString(name, val);
return m_handler->fieldCString(name, val);
} else {
return {};
}
@@ -70,27 +70,27 @@ class ModelHandlerInterface {
constexpr Error fieldCString(const char *name, const char **val) noexcept requires(opType_v != OpType::Read) {
// this check looks pointless, but it's to address a Clang bug
if constexpr(opType_v != OpType::Read) {
return m_handler.fieldCString(name, val);
return m_handler->fieldCString(name, val);
} else {
return {};
}
}
constexpr Error fieldCString(const char *name, char **val, std::size_t buffLen) noexcept {
return m_handler.fieldCString(name, val, buffLen);
return m_handler->fieldCString(name, val, buffLen);
}
constexpr Error fieldCString(const char *name, const char **val, std::size_t buffLen) noexcept requires(opType_v != OpType::Read) {
// this check looks pointless, but it's to address a Clang bug
if constexpr(opType_v != OpType::Read) {
return m_handler.fieldCString(name, val, buffLen);
return m_handler->fieldCString(name, val, buffLen);
} else {
return {};
}
}
constexpr Error fieldCString(const char *name, char *val, std::size_t buffLen) noexcept {
return m_handler.fieldCString(name, val, buffLen);
return m_handler->fieldCString(name, val, buffLen);
}
constexpr Error fieldModelValue(const char *name, CommonPtrWith<ModelValue> auto *v) noexcept {
@@ -98,51 +98,51 @@ class ModelHandlerInterface {
case ModelValue::Type::Undefined:
break;
case ModelValue::Type::Bool:
return m_handler.field(name, &v->template get<bool>());
return m_handler->field(name, &v->template get<bool>());
case ModelValue::Type::UnsignedInteger8:
return m_handler.field(name, &v->template get<uint8_t>());
return m_handler->field(name, &v->template get<uint8_t>());
case ModelValue::Type::UnsignedInteger16:
return m_handler.field(name, &v->template get<uint16_t>());
return m_handler->field(name, &v->template get<uint16_t>());
case ModelValue::Type::UnsignedInteger32:
return m_handler.field(name, &v->template get<uint32_t>());
return m_handler->field(name, &v->template get<uint32_t>());
case ModelValue::Type::UnsignedInteger64:
return m_handler.field(name, &v->template get<uint64_t>());
return m_handler->field(name, &v->template get<uint64_t>());
case ModelValue::Type::SignedInteger8:
return m_handler.field(name, &v->template get<int8_t>());
return m_handler->field(name, &v->template get<int8_t>());
case ModelValue::Type::SignedInteger16:
return m_handler.field(name, &v->template get<int16_t>());
return m_handler->field(name, &v->template get<int16_t>());
case ModelValue::Type::SignedInteger32:
return m_handler.field(name, &v->template get<int32_t>());
return m_handler->field(name, &v->template get<int32_t>());
case ModelValue::Type::SignedInteger64:
return m_handler.field(name, &v->template get<int64_t>());
return m_handler->field(name, &v->template get<int64_t>());
case ModelValue::Type::String:
return m_handler.field(name, &v->template get<String>());
return m_handler->field(name, &v->template get<String>());
case ModelValue::Type::Object:
return m_handler.field(name, &v->template get<ModelObject>());
return m_handler->field(name, &v->template get<ModelObject>());
case ModelValue::Type::Union:
{
auto &u = v->template get<ModelUnion>();
if constexpr(opType_v == OpType::Read) {
u.setActiveField(m_handler.whichFieldPresent(name, u));
return m_handler.field(name, UnionView<ModelUnion, true>(&u, u.unionIdx()));
u.setActiveField(m_handler->whichFieldPresent(name, u));
return m_handler->field(name, UnionView<ModelUnion, true>(&u, u.unionIdx()));
} else {
return m_handler.field(name, UnionView<const ModelUnion, true>(&u, u.unionIdx()));
return m_handler->field(name, UnionView<const ModelUnion, true>(&u, u.unionIdx()));
}
}
case ModelValue::Type::Vector:
return m_handler.field(name, &v->template get<ModelValueVector>());
return m_handler->field(name, &v->template get<ModelValueVector>());
case ModelValue::Type::InlineArray:
return m_handler.field(name, &v->template get<ModelValueArray>());
return m_handler->field(name, &v->template get<ModelValueArray>());
}
oxErrf("invalid type: {}: {}\n", name, static_cast<int>(v->type()));
ox::panic("invalid type");
oxPanic(ox::Error(1), "invalid type");
return ox::Error(1, "invalid type");
}
// array handler, with callback to allow handling individual elements
template<typename T, typename Callback>
constexpr Error field(const char *name, Callback cb) noexcept {
return m_handler.template field<T, Callback>(name, cb);
return m_handler->template field<T, Callback>(name, cb);
}
template<typename T>
@@ -150,7 +150,7 @@ class ModelHandlerInterface {
if constexpr(ox::is_same_v<T, ModelValue>) {
return fieldModelValue(name, v);
} else {
return m_handler.field(name, v);
return m_handler->field(name, v);
}
}
@@ -159,27 +159,26 @@ class ModelHandlerInterface {
if constexpr(ox::is_same_v<T, ModelValue>) {
return fieldModelValue(name, v);
} else {
return m_handler.field(name, v);
return m_handler->field(name, v);
}
}
template<typename U, bool force = false>
constexpr Error field(const char *name, UnionView<U, force> val) noexcept {
return m_handler.field(name, val);
return m_handler->field(name, val);
}
constexpr Error field(const char *name, auto *val, std::size_t len) noexcept {
return m_handler.field(name, val, len);
return m_handler->field(name, val, len);
}
/**
* Reads an array length from the current location in the buffer.
* @param name
* @param pass indicates that the parsing should iterate past the array length
*/
[[nodiscard]]
constexpr auto arrayLength(const char *name, bool pass = true) noexcept {
return m_handler.arrayLength(name, pass);
return m_handler->arrayLength(name, pass);
}
/**
@@ -187,7 +186,7 @@ class ModelHandlerInterface {
*/
[[nodiscard]]
constexpr auto stringLength(const char *name) noexcept {
return m_handler.stringLength(name);
return m_handler->stringLength(name);
}
[[nodiscard]]
@@ -201,17 +200,20 @@ class ModelHandlerInterface {
}
};
template<typename Handler, OpType opType_v = Handler::opType()>
template<typename Handler, ox::OpType opType_v = Handler::opType()>
class ModelHandlerBase {
private:
ModelHandlerInterface<Handler, opType_v> m_interface{*static_cast<Handler*>(this)};
ModelHandlerInterface<Handler, opType_v> m_interface;
public:
constexpr ModelHandlerBase() noexcept: m_interface(static_cast<Handler*>(this)) {}
constexpr ModelHandlerBase(const ModelHandlerBase&) noexcept: m_interface(static_cast<Handler*>(this)) {}
constexpr ModelHandlerBase(ModelHandlerBase&&) noexcept: m_interface(static_cast<Handler*>(this)) {}
[[nodiscard]]
constexpr auto interface() noexcept {
return &m_interface;
}
[[nodiscard]]
static constexpr OpType opType() noexcept {
static constexpr ox::OpType opType() noexcept {
return opType_v;
}
};

3
deps/ox/src/ox/model/modelvalue.cpp vendored
View File

@@ -20,7 +20,4 @@ static_assert([]() -> ox::Error {
return {};
}() == ox::Error{});
// a dummy function to prevent linker errors in a library that has no other symbols
void modelDummyFunc() noexcept {}
}

16
deps/ox/src/ox/model/modelvalue.hpp vendored
View File

@@ -100,7 +100,7 @@ class ModelValue {
return Type::Union;
} else if constexpr(is_same_v<U, ModelObject>) {
return Type::Object;
} else if constexpr(isBasicString_v<U> || isIString_v<U>) {
} else if constexpr(isBasicString_v<U> || isBString_v<U>) {
return Type::String;
} else if constexpr(is_same_v<U, ModelValueVector>) {
return Type::Vector;
@@ -168,7 +168,7 @@ class ModelValue {
constexpr const auto &get() const noexcept {
constexpr auto type = getType<T>();
if (m_type != type) [[unlikely]] {
ox::panic("invalid cast");
oxPanic(ox::Error(1), "invalid cast");
}
return getValue<type>(*this);
}
@@ -178,7 +178,7 @@ class ModelValue {
constexpr auto &get() noexcept {
constexpr auto type = getType<T>();
if (m_type != type) [[unlikely]] {
ox::panic("invalid cast");
oxPanic(ox::Error(1), "invalid cast");
}
return getValue<type>(*this);
}
@@ -187,7 +187,7 @@ class ModelValue {
constexpr Type type() const noexcept;
constexpr Error setType(
DescriptorType const *type,
DescriptorType const*type,
SubscriptStack const& = {},
int subscriptLevels = 0) noexcept;
@@ -275,7 +275,7 @@ class ModelValueArray {
}
constexpr Error setType(
DescriptorType const *type,
DescriptorType const*type,
SubscriptStack subscriptStack,
int subscriptLevels) noexcept {
oxAssert(subscriptLevels <= static_cast<int>(subscriptStack.size()), "subscript level mismatch");
@@ -418,7 +418,7 @@ class ModelValueVector {
}
constexpr Error setType(
DescriptorType const *type,
DescriptorType const*type,
SubscriptStack subscriptStack,
int subscriptLevels) noexcept {
oxAssert(subscriptLevels <= static_cast<int>(subscriptStack.size()), "subscript level mismatch");
@@ -821,7 +821,7 @@ class ModelUnion {
template<typename PlatSpec>
[[nodiscard]]
constexpr std::size_t sizeOf(ModelValueArray const *v) noexcept {
constexpr std::size_t sizeOf(ModelValueArray const*v) noexcept {
return sizeOf<PlatSpec>(&(*v)[0]) * v->size();
}
@@ -1098,7 +1098,7 @@ constexpr Error ModelValue::setType(
} else if (type->typeName == types::Bool) {
m_type = Type::Bool;
} else if (type->typeName == types::BasicString ||
type->typeName == types::IString ||
type->typeName == types::BString ||
type->typeName == types::String) {
m_type = Type::String;
m_data.str = new String;

4
deps/ox/src/ox/model/typenamecatcher.hpp vendored
View File

@@ -144,7 +144,7 @@ template<typename T, typename Str = const char*>
[[nodiscard]]
consteval auto requireModelTypeName() noexcept {
constexpr auto name = getModelTypeName<T, Str>();
static_assert(ox::StringView{name}.size(), "Type lacks required TypeName");
static_assert(ox::StringView{name}.len(), "Type lacks required TypeName");
return name;
}
@@ -159,7 +159,7 @@ constexpr auto ModelTypeId_v = [] {
constexpr auto name = ModelTypeName_v<T, ox::StringView>;
constexpr auto version = ModelTypeVersion_v<T>;
constexpr auto versionStr = ox::sfmt<ox::IString<19>>("{}", version);
return ox::sfmt<ox::IString<name.size() + versionStr.size() + 1>>("{};{}", name, versionStr);
return ox::sfmt<ox::IString<name.len() + versionStr.len() + 1>>("{};{}", name, versionStr);
}();
}

34
deps/ox/src/ox/model/types.hpp vendored
View File

@@ -31,18 +31,18 @@
namespace ox {
namespace types {
constexpr StringLiteral BasicString = "net.drinkingtea.ox.BasicString";
constexpr StringLiteral IString = "net.drinkingtea.ox.IString";
constexpr StringLiteral String = "B.string";
constexpr StringLiteral Bool = "B.bool";
constexpr StringLiteral Uint8 = "B.uint8";
constexpr StringLiteral Uint16 = "B.uint16";
constexpr StringLiteral Uint32 = "B.uint32";
constexpr StringLiteral Uint64 = "B.uint64";
constexpr StringLiteral Int8 = "B.int8";
constexpr StringLiteral Int16 = "B.int16";
constexpr StringLiteral Int32 = "B.int32";
constexpr StringLiteral Int64 = "B.int64";
constexpr StringView BasicString = "net.drinkingtea.ox.BasicString";
constexpr StringView BString = "net.drinkingtea.ox.BString";
constexpr StringView String = "B.string";
constexpr StringView Bool = "B.bool";
constexpr StringView Uint8 = "B.uint8";
constexpr StringView Uint16 = "B.uint16";
constexpr StringView Uint32 = "B.uint32";
constexpr StringView Uint64 = "B.uint64";
constexpr StringView Int8 = "B.int8";
constexpr StringView Int16 = "B.int16";
constexpr StringView Int32 = "B.int32";
constexpr StringView Int64 = "B.int64";
}
template<typename T>
@@ -63,17 +63,17 @@ static_assert(isBasicString_v<ox::BasicString<8ul>>);
static_assert(isBasicString_v<ox::String>);
template<typename T>
consteval bool isIString(const T*) noexcept {
consteval bool isBString(const T*) noexcept {
return false;
}
template<std::size_t SmallVecSize>
consteval bool isIString(const BasicString<SmallVecSize>*) noexcept {
consteval bool isBString(const BasicString<SmallVecSize>*) noexcept {
return true;
}
template<typename T>
constexpr bool isIString_v = isIString(static_cast<const T*>(nullptr));
constexpr bool isBString_v = isBasicString(static_cast<const T*>(nullptr));
static_assert(isBasicString_v<ox::BasicString<0ul>>);
static_assert(isBasicString_v<ox::BasicString<8ul>>);
@@ -169,12 +169,12 @@ constexpr bool isSmartPtr_v<::std::unique_ptr<T>> = true;
#endif
template<typename Union, bool force = false> requires(force || is_union_v<Union>)
template<typename Union, bool force = false>
class UnionView {
protected:
int m_idx = -1;
Union *m_union = nullptr;
typename enable_if<is_union_v<Union> || force, Union>::type *m_union = nullptr;
public:
constexpr UnionView(Union *u, int idx) noexcept: m_idx(idx), m_union(u) {

76
deps/ox/src/ox/oc/read.cpp vendored
View File

@@ -13,31 +13,31 @@
namespace ox {
OrganicClawReader::OrganicClawReader(const uint8_t *buff, size_t const buffSize) {
OrganicClawReader::OrganicClawReader(const uint8_t *buff, std::size_t buffSize) {
auto json = reinterpret_cast<const char*>(buff);
auto jsonLen = ox::strnlen_s(json, buffSize);
Json::CharReaderBuilder parserBuilder;
auto parser = std::unique_ptr<Json::CharReader>(parserBuilder.newCharReader());
if (!parser->parse(json, json + jsonLen, &m_json, nullptr)) {
throw Exception(1, "Could not parse JSON");
throw ox::Exception(1, "Could not parse JSON");
}
}
OrganicClawReader::OrganicClawReader(CString const json, size_t const jsonLen) {
OrganicClawReader::OrganicClawReader(const char *json, std::size_t jsonLen) {
Json::CharReaderBuilder parserBuilder;
auto parser = std::unique_ptr<Json::CharReader>(parserBuilder.newCharReader());
if (!parser->parse(json, json + jsonLen, &m_json, nullptr)) {
throw Exception(1, "Could not parse JSON");
throw ox::Exception(1, "Could not parse JSON");
}
}
OrganicClawReader::OrganicClawReader(Json::Value json, int const unionIdx) noexcept:
OrganicClawReader::OrganicClawReader(Json::Value json, int unionIdx) noexcept:
m_json(std::move(json)),
m_unionIdx(unionIdx) {
}
Error OrganicClawReader::field(CString const key, bool *val) noexcept {
Error err{};
Error OrganicClawReader::field(const char *key, bool *val) noexcept {
ox::Error err{};
if (targetValid()) {
const auto &jv = value(key);
if (jv.empty()) {
@@ -45,16 +45,16 @@ Error OrganicClawReader::field(CString const key, bool *val) noexcept {
} else if (jv.isBool()) {
*val = jv.asBool();
} else {
err = Error(1, "Type mismatch");
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
Error OrganicClawReader::fieldCString(CString const key, char *val, size_t const buffLen) noexcept {
Error err{};
CString begin = nullptr, end = nullptr;
Error OrganicClawReader::fieldCString(const char *key, char *val, std::size_t buffLen) noexcept {
ox::Error err{};
const char *begin = nullptr, *end = nullptr;
const auto &jv = value(key);
if (targetValid()) {
if (jv.empty()) {
@@ -64,25 +64,25 @@ Error OrganicClawReader::fieldCString(CString const key, char *val, size_t const
}
} else if (jv.isString()) {
jv.getString(&begin, &end);
const auto strSize = static_cast<size_t>(end - begin);
const auto strSize = static_cast<std::size_t>(end - begin);
auto data = val;
if (strSize >= buffLen) {
err = Error(2, "String size exceeds capacity of destination");
err = ox::Error(2, "String size exceeds capacity of destination");
} else {
memcpy(data, begin, static_cast<size_t>(strSize));
ox::memcpy(data, begin, static_cast<std::size_t>(strSize));
data[strSize] = 0;
}
} else {
err = Error(1, "Type mismatch");
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
Error OrganicClawReader::fieldCString(CString const key, char **val) noexcept {
Error err{};
CString begin = nullptr, end = nullptr;
Error OrganicClawReader::fieldCString(const char *key, char **val) noexcept {
ox::Error err{};
const char *begin = nullptr, *end = nullptr;
const auto &jv = value(key);
auto &data = *val;
if (targetValid()) {
@@ -92,22 +92,22 @@ Error OrganicClawReader::fieldCString(CString const key, char **val) noexcept {
}
} else if (jv.isString()) {
jv.getString(&begin, &end);
const auto strSize = static_cast<size_t>(end - begin);
const auto strSize = static_cast<std::size_t>(end - begin);
safeDelete(*val);
*val = new char[strSize + 1];
memcpy(data, begin, static_cast<size_t>(strSize));
ox::memcpy(data, begin, static_cast<std::size_t>(strSize));
data[strSize] = 0;
} else {
err = Error(1, "Type mismatch");
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
Error OrganicClawReader::fieldCString(CString const key, char **val, size_t const buffLen) noexcept {
Error err{};
CString begin = nullptr, end = nullptr;
Error OrganicClawReader::fieldCString(const char *key, char **val, std::size_t buffLen) noexcept {
ox::Error err{};
const char *begin = nullptr, *end = nullptr;
const auto &jv = value(key);
if (targetValid()) {
if (jv.empty()) {
@@ -117,29 +117,29 @@ Error OrganicClawReader::fieldCString(CString const key, char **val, size_t cons
}
} else if (jv.isString()) {
jv.getString(&begin, &end);
const auto strSize = static_cast<size_t>(end - begin);
const auto strSize = static_cast<std::size_t>(end - begin);
auto data = val;
if (strSize >= buffLen) {
safeDelete(*val);
*val = new char[strSize + 1];
}
memcpy(data, begin, static_cast<size_t>(strSize));
ox::memcpy(data, begin, static_cast<std::size_t>(strSize));
data[strSize] = nullptr;
} else {
err = Error(1, "Type mismatch");
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
Error OrganicClawReader::field(CString const key, UUID *val) noexcept {
Error OrganicClawReader::field(const char *key, UUID *val) noexcept {
UUIDStr str;
OX_RETURN_ERROR(field(key, &str));
return UUID::fromString(str).moveTo(*val);
}
Result<size_t> OrganicClawReader::arrayLength(CString const key, bool) noexcept {
Result<std::size_t> OrganicClawReader::arrayLength(const char *key, bool) noexcept {
const auto &jv = value(key);
if (jv.empty()) {
return 0;
@@ -147,32 +147,32 @@ Result<size_t> OrganicClawReader::arrayLength(CString const key, bool) noexcept
if (jv.isArray()) {
return jv.size();
}
return Error(1, "Type mismatch");
return ox::Error(1, "Type mismatch");
}
[[nodiscard]]
size_t OrganicClawReader::stringLength(CString const key) noexcept {
CString begin = nullptr, end = nullptr;
std::size_t OrganicClawReader::stringLength(const char *key) noexcept {
const char *begin = nullptr, *end = nullptr;
const auto &jv = value(key);
if (jv.empty()) {
return 0;
}
if (jv.isString()) {
jv.getString(&begin, &end);
return static_cast<size_t>(end - begin);
return static_cast<std::size_t>(end - begin);
}
return Error(1, "Type mismatch");
return ox::Error(1, "Type mismatch");
}
OrganicClawReader OrganicClawReader::child(CString const key, int const unionIdx) noexcept {
OrganicClawReader OrganicClawReader::child(const char *key, int unionIdx) noexcept {
return OrganicClawReader(value(key), unionIdx);
}
bool OrganicClawReader::fieldPresent(CString const key) noexcept {
bool OrganicClawReader::fieldPresent(const char *key) noexcept {
return !m_json[key].empty();
}
int OrganicClawReader::whichFieldPresent(CString const name, ModelUnion const &u) const noexcept {
int OrganicClawReader::whichFieldPresent(const char *name, const ModelUnion &u) const noexcept {
const auto &obj = m_json[name];
if (!obj.isObject()) {
return -1;
@@ -184,7 +184,7 @@ int OrganicClawReader::whichFieldPresent(CString const name, ModelUnion const &u
return u.getKeyIdx(keys.front().c_str());
}
Json::Value &OrganicClawReader::value(CString const key) noexcept {
Json::Value &OrganicClawReader::value(const char *key) noexcept {
if (m_json.isArray()) {
return m_json[m_fieldIt];
} else {

154
deps/ox/src/ox/oc/read.hpp vendored
View File

@@ -34,76 +34,75 @@ class OrganicClawReader {
private:
Json::Value m_json;
Json::ArrayIndex m_fieldIt = 0;
int const m_unionIdx = -1;
int m_unionIdx = -1;
public:
OrganicClawReader() noexcept = default;
OrganicClawReader(uint8_t const *buff, size_t buffSize);
OrganicClawReader(const uint8_t *buff, std::size_t buffSize);
OrganicClawReader(CString json, size_t buffSize);
OrganicClawReader(const char *json, std::size_t buffSize);
explicit OrganicClawReader(Json::Value json, int unionIdx = -1) noexcept;
Error field(CString key, bool *val) noexcept;
Error field(const char *key, bool *val) noexcept;
// array handler
template<typename T>
Error field(CString key, T *val, size_t len) noexcept;
Error field(const char *key, T *val, std::size_t len) noexcept;
template<typename T>
Error field(CString, HashMap<String, T> *val) noexcept;
Error field(const char*, HashMap<String, T> *val) noexcept;
template<typename T>
Error field(CString key, T *val) noexcept;
Error field(const char *key, T *val) noexcept;
template<typename U, bool force = false>
Error field(CString key, UnionView<U, force> val) noexcept;
Error field(const char *key, UnionView<U, force> val) noexcept;
template<size_t L>
Error field(CString key, BasicString<L> *val) noexcept;
template<std::size_t L>
Error field(const char *key, BasicString<L> *val) noexcept;
template<size_t L>
Error field(CString key, IString<L> *val) noexcept;
template<std::size_t L>
Error field(const char *key, IString<L> *val) noexcept;
Error fieldCString(CString key, char *val, size_t buffLen) noexcept;
Error fieldCString(const char *key, char *val, std::size_t buffLen) noexcept;
Error fieldCString(CString key, char **val) noexcept;
Error fieldCString(const char *key, char **val) noexcept;
Error fieldCString(CString key, char **val, size_t buffLen) noexcept;
Error fieldCString(const char *key, char **val, std::size_t buffLen) noexcept;
Error field(CString key, UUID *val) noexcept;
Error field(const char *key, UUID *val) noexcept;
/**
* Reads an array length from the current location in the buffer.
* @param key
* @param pass indicates that the parsing should iterate past the array length
*/
Result<size_t> arrayLength(CString key, bool pass = true) noexcept;
Result<std::size_t> arrayLength(const char *key, bool pass = true) noexcept;
/**
* Reads an string length from the current location in the buffer.
*/
[[nodiscard]]
size_t stringLength(CString key) noexcept;
std::size_t stringLength(const char *name) noexcept;
template<typename T = void>
constexpr Error setTypeInfo() noexcept {
constexpr ox::Error setTypeInfo() noexcept {
return {};
}
template<typename T = void>
constexpr Error setTypeInfo(CString) noexcept {
constexpr ox::Error setTypeInfo(const char*) noexcept {
return {};
}
template<typename T = void>
constexpr Error setTypeInfo(CString, int, const Vector<String>& = {}) noexcept {
constexpr ox::Error setTypeInfo(const char*, int, const Vector<String>& = {}) noexcept {
return {};
}
template<typename T = void>
constexpr Error setTypeInfo(CString, int, const Vector<String>& = {}, size_t = {}) noexcept {
constexpr ox::Error setTypeInfo(const char*, int, const Vector<String>& = {}, std::size_t = {}) noexcept {
return {};
}
@@ -111,16 +110,16 @@ class OrganicClawReader {
* Returns a OrganicClawReader to parse a child object.
*/
[[nodiscard]]
OrganicClawReader child(CString key, int unionIdx = -1) noexcept;
OrganicClawReader child(const char *key, int unionIdx = -1) noexcept;
// compatibility stub
constexpr void nextField() noexcept {}
[[nodiscard]]
bool fieldPresent(CString key) noexcept;
bool fieldPresent(const char *key) noexcept;
[[nodiscard]]
int whichFieldPresent(CString name, const ModelUnion &u) const noexcept;
int whichFieldPresent(const char *name, const ModelUnion &u) const noexcept;
[[nodiscard]]
static constexpr auto opType() noexcept {
@@ -129,7 +128,7 @@ class OrganicClawReader {
private:
[[nodiscard]]
Json::Value &value(CString key) noexcept;
Json::Value &value(const char *key) noexcept;
[[nodiscard]]
bool targetValid() const noexcept;
@@ -137,102 +136,103 @@ class OrganicClawReader {
};
template<typename T>
Error OrganicClawReader::field(CString key, T *val) noexcept {
Error err{};
Error OrganicClawReader::field(const char *key, T *val) noexcept {
ox::Error err{};
try {
if constexpr (is_integer_v<T>) {
if (targetValid()) {
auto const &jv = value(key);
auto const&jv = value(key);
auto const rightType = sizeof(T) == 8 ?
(is_signed_v<T> ? jv.isInt64() : jv.isUInt64()) :
(is_signed_v<T> ? jv.isInt() : jv.isUInt());
(ox::is_signed_v<T> ? jv.isInt64() : jv.isUInt64()) :
(ox::is_signed_v<T> ? jv.isInt() : jv.isUInt());
if (jv.empty()) {
*val = 0;
} else if (rightType) {
if constexpr(is_signed_v<T>) {
if constexpr(ox::is_signed_v<T>) {
*val = static_cast<T>(jv.asInt64());
} else {
*val = static_cast<T>(jv.asUInt64());
}
} else {
err = Error{1, "Type mismatch"};
err = ox::Error(1, "Type mismatch");
}
}
} else if constexpr (isVector_v<T>) {
auto const &srcVal = value(key);
auto const srcSize = srcVal.size();
OX_RETURN_ERROR(resizeVector(*val, srcSize));
const auto&srcVal = value(key);
const auto srcSize = srcVal.size();
OX_RETURN_ERROR(ox::resizeVector(*val, srcSize));
err = field(key, val->data(), val->size());
} else if constexpr (isArray_v<T>) {
auto const &srcVal = value(key);
auto const srcSize = srcVal.size();
const auto&srcVal = value(key);
const auto srcSize = srcVal.size();
if (srcSize > val->size()) {
err = Error{1, "Input array is too long"};
err = ox::Error(1, "Input array is too long");
} else {
err = field(key, val->data(), val->size());
}
} else if (targetValid()) {
auto const &jv = value(key);
const auto&jv = value(key);
if (jv.empty() || jv.isObject()) {
auto reader = child(key);
ModelHandlerInterface handler(reader);
ModelHandlerInterface handler(&reader);
err = model(&handler, val);
} else {
err = Error{1, "Type mismatch"};
err = ox::Error(1, "Type mismatch");
}
}
} catch (Json::LogicError const &e) {
err = Error{1, "error reading JSON data"};
} catch (Json::LogicError const&e) {
oxDebugf("JSON error: {}", e.what());
err = ox::Error(1, "error reading JSON data");
}
++m_fieldIt;
return err;
}
template<typename U, bool force>
Error OrganicClawReader::field(CString const key, UnionView<U, force> val) noexcept {
Error err{};
Error OrganicClawReader::field(const char *key, UnionView<U, force> val) noexcept {
ox::Error err{};
if (targetValid()) {
auto const &jv = value(key);
const auto &jv = value(key);
if (jv.empty() || jv.isObject()) {
auto reader = child(key, val.idx());
ModelHandlerInterface handler(reader);
ModelHandlerInterface handler(&reader);
err = model(&handler, val.get());
} else {
err = Error{1, "Type mismatch"};
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
template<size_t L>
Error OrganicClawReader::field(CString const key, BasicString<L> *val) noexcept {
Error err{};
template<std::size_t L>
Error OrganicClawReader::field(const char *key, BasicString<L> *val) noexcept {
ox::Error err{};
if (targetValid()) {
auto const &jv = value(key);
const auto &jv = value(key);
if (jv.empty()) {
*val = BasicString<L>{};
} else if (jv.isString()) {
*val = jv.asString().c_str();
} else {
err = Error{1, "Type mismatch"};
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
return err;
}
template<size_t L>
Error OrganicClawReader::field(CString const key, IString<L> *val) noexcept {
Error err{};
template<std::size_t L>
Error OrganicClawReader::field(const char *key, IString<L> *val) noexcept {
ox::Error err{};
if (targetValid()) {
auto const &jv = value(key);
const auto &jv = value(key);
if (jv.empty()) {
*val = IString<L>{};
} else if (jv.isString()) {
*val = jv.asString().c_str();
} else {
err = Error{1, "Type mismatch"};
err = ox::Error(1, "Type mismatch");
}
}
++m_fieldIt;
@@ -241,17 +241,17 @@ Error OrganicClawReader::field(CString const key, IString<L> *val) noexcept {
// array handler
template<typename T>
Error OrganicClawReader::field(CString const key, T *val, size_t valLen) noexcept {
auto const &srcVal = value(key);
Error OrganicClawReader::field(const char *key, T *val, std::size_t valLen) noexcept {
const auto &srcVal = value(key);
if (!srcVal.isNull() && !srcVal.isArray()) {
return Error{1, "Type mismatch"};
return ox::Error(1, "Type mismatch");
}
auto srcSize = srcVal.size();
if (srcSize > valLen) {
return Error{1};
return ox::Error(1);
}
OrganicClawReader r(srcVal);
ModelHandlerInterface handler{r};
ModelHandlerInterface handler{&r};
for (decltype(srcSize) i = 0; i < srcSize; ++i) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
OX_RETURN_ERROR(handler.field("", &val[i]));
@@ -261,23 +261,23 @@ OX_ALLOW_UNSAFE_BUFFERS_END
}
template<typename T>
Error OrganicClawReader::field(CString const key, HashMap<String, T> *val) noexcept {
auto const &srcVal = value(key);
Error OrganicClawReader::field(const char *key, HashMap<String, T> *val) noexcept {
const auto &srcVal = value(key);
if (!srcVal.isObject()) {
return Error{1, "Type mismatch"};
return ox::Error(1, "Type mismatch");
}
auto keys = srcVal.getMemberNames();
auto srcSize = srcVal.size();
OrganicClawReader r(srcVal);
ModelHandlerInterface handler{r};
ModelHandlerInterface handler{&r};
for (decltype(srcSize) i = 0; i < srcSize; ++i) {
auto const k = keys[i].c_str();
const auto k = keys[i].c_str();
OX_RETURN_ERROR(handler.field(k, &val->operator[](k)));
}
return {};
}
Error readOC(BufferView const buff, auto &val) noexcept {
Error readOC(BufferView buff, auto &val) noexcept {
// OrganicClawReader constructor can throw, but readOC should return its errors.
try {
Json::Value doc;
@@ -286,15 +286,15 @@ Error readOC(BufferView const buff, auto &val) noexcept {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
if (!parser->parse(buff.data(), buff.data() + buff.size(), &doc, nullptr)) {
OX_ALLOW_UNSAFE_BUFFERS_END
return Error{1, "Could not parse JSON"};
return ox::Error(1, "Could not parse JSON");
}
OrganicClawReader reader(buff.data(), buff.size());
ModelHandlerInterface handler(reader);
ModelHandlerInterface handler(&reader);
return model(&handler, &val);
} catch (Error const &err) {
} catch (const Error &err) {
return err;
} catch (...) {
return Error{1, "Unknown Error"};
return ox::Error(1, "Unknown Error");
}
}
@@ -306,8 +306,8 @@ Result<T> readOC(BufferView buff) noexcept {
}
template<typename T>
Result<T> readOC(StringViewCR json) noexcept {
return readOC<T>(BufferView{json.data(), json.size()});
Result<T> readOC(ox::StringView json) noexcept {
return readOC<T>(ox::BufferView{json.data(), json.len()});
}
}

12
deps/ox/src/ox/oc/write.cpp vendored
View File

@@ -10,15 +10,15 @@
namespace ox {
OrganicClawWriter::OrganicClawWriter(int const unionIdx) noexcept: m_unionIdx(unionIdx) {
OrganicClawWriter::OrganicClawWriter(int unionIdx) noexcept: m_unionIdx(unionIdx) {
}
OrganicClawWriter::OrganicClawWriter(Json::Value json, int const unionIdx) noexcept:
OrganicClawWriter::OrganicClawWriter(Json::Value json, int unionIdx) noexcept:
m_json(std::move(json)),
m_unionIdx(unionIdx) {
}
Error OrganicClawWriter::fieldCString(const char *key, const char *const *val, int const len) noexcept {
Error OrganicClawWriter::fieldCString(const char *key, const char *const*val, int len) noexcept {
if (targetValid() && len) {
value(key) = *val;
}
@@ -26,13 +26,13 @@ Error OrganicClawWriter::fieldCString(const char *key, const char *const *val, i
return {};
}
Error OrganicClawWriter::fieldCString(const char *key, const char *const *val) noexcept {
Error OrganicClawWriter::fieldCString(const char *key, const char *const*val) noexcept {
return fieldCString(key, const_cast<const char**>(val), static_cast<int>(ox::strlen(val)));
}
Error OrganicClawWriter::field(const char *key, UUID const *uuid) noexcept {
Error OrganicClawWriter::field(const char *key, const UUID *uuid) noexcept {
const auto uuidStr = uuid->toString();
if (targetValid() && uuidStr.size()) {
if (targetValid() && uuidStr.len()) {
value(key) = uuidStr.c_str();
}
++m_fieldIt;

96
deps/ox/src/ox/oc/write.hpp vendored
View File

@@ -28,20 +28,20 @@ namespace ox {
class OrganicClawWriter {
friend Result<Buffer> writeOC(const auto &val) noexcept;
friend Result<String> writeOCString(const auto &val) noexcept;
friend Result<ox::Buffer> writeOC(const auto &val) noexcept;
friend Result<ox::String> writeOCString(const auto &val) noexcept;
protected:
Json::Value m_json{Json::Value(Json::objectValue)};
Json::ArrayIndex m_fieldIt = 0;
int const m_unionIdx = -1;
int m_unionIdx = -1;
public:
explicit OrganicClawWriter(int unionIdx = -1) noexcept;
explicit OrganicClawWriter(Json::Value json, int unionIdx = -1) noexcept;
Error field(CString const key, int8_t const *val) noexcept {
Error field(const char *key, const int8_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -49,7 +49,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, int16_t const *val) noexcept {
Error field(const char *key, const int16_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -57,7 +57,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, int32_t const *val) noexcept {
Error field(const char *key, const int32_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -65,7 +65,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, int64_t const *val) noexcept {
Error field(const char *key, const int64_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -74,7 +74,7 @@ class OrganicClawWriter {
}
Error field(CString const key, uint8_t const *val) noexcept {
Error field(const char *key, const uint8_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -82,7 +82,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, uint16_t const *val) noexcept {
Error field(const char *key, const uint16_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -90,7 +90,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, uint32_t const *val) noexcept {
Error field(const char *key, const uint32_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -98,7 +98,7 @@ class OrganicClawWriter {
return {};
}
Error field(CString const key, uint64_t const *val) noexcept {
Error field(const char *key, const uint64_t *val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -106,7 +106,7 @@ class OrganicClawWriter {
return {};
}
Error field(char const*key, bool const *val) noexcept {
Error field(char const*key, bool const*val) noexcept {
if (targetValid() && (*val || m_json.isArray())) {
value(key) = *val;
}
@@ -118,12 +118,12 @@ class OrganicClawWriter {
Error field(char const*, UnionView<U, force> val) noexcept;
template<typename T>
Error field(char const*key, HashMap<String, T> const *val) noexcept {
Error field(char const*key, HashMap<String, T> const*val) noexcept {
if (targetValid()) {
const auto &keys = val->keys();
OrganicClawWriter w;
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{w};
for (size_t i = 0; i < keys.size(); ++i) {
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{&w};
for (std::size_t i = 0; i < keys.size(); ++i) {
const auto k = keys[i].c_str();
if (k) [[likely]] {
OX_REQUIRE_M(value, val->at(k));
@@ -136,49 +136,49 @@ class OrganicClawWriter {
return {};
}
template<size_t L>
Error field(char const*key, IString<L> const *val) noexcept {
if (targetValid() && val->size()) {
template<std::size_t L>
Error field(char const*key, IString<L> const*val) noexcept {
if (targetValid() && val->len()) {
value(key) = val->c_str();
}
++m_fieldIt;
return {};
}
template<size_t L>
Error field(char const*key, BasicString<L> const *val) noexcept {
if (targetValid() && val->size()) {
template<std::size_t L>
Error field(char const*key, BasicString<L> const*val) noexcept {
if (targetValid() && val->len()) {
value(key) = val->c_str();
}
++m_fieldIt;
return {};
}
Error fieldCString(CString, CString const *val, int len) noexcept;
Error fieldCString(const char*, const char *const*val, int len) noexcept;
Error fieldCString(CString name, CString const*val) noexcept;
Error fieldCString(const char *name, const char *const*val) noexcept;
Error field(CString key, UUID const *uuid) noexcept;
Error field(const char *key, const UUID *uuid) noexcept;
template<typename T>
Error field(CString, T const *val, size_t len) noexcept;
Error field(const char*, const T *val, std::size_t len) noexcept;
template<typename T>
Error field(CString, T const *val) noexcept;
Error field(const char*, const T *val) noexcept;
template<typename T>
constexpr Error setTypeInfo(
constexpr ox::Error setTypeInfo(
const char* = T::TypeName,
int = T::TypeVersion) noexcept {
return {};
}
template<typename T>
constexpr Error setTypeInfo(
constexpr ox::Error setTypeInfo(
const char*,
int,
Vector<String> const&,
size_t) noexcept {
const Vector<String>&,
std::size_t) noexcept {
return {};
}
@@ -194,16 +194,16 @@ class OrganicClawWriter {
}
[[nodiscard]]
Json::Value &value(CString key) noexcept;
Json::Value &value(const char *key) noexcept;
};
template<typename T>
Error OrganicClawWriter::field(CString key, T const *val, size_t const len) noexcept {
Error OrganicClawWriter::field(const char *key, const T *val, std::size_t len) noexcept {
if (targetValid() && len) {
OrganicClawWriter w((Json::Value(Json::arrayValue)));
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{w};
for (size_t i = 0; i < len; ++i) {
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{&w};
for (std::size_t i = 0; i < len; ++i) {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
OX_RETURN_ERROR(handler.field({}, &val[i]));
OX_ALLOW_UNSAFE_BUFFERS_END
@@ -215,22 +215,22 @@ OX_ALLOW_UNSAFE_BUFFERS_END
}
template<typename T>
Error OrganicClawWriter::field(CString key, T const *val) noexcept {
Error OrganicClawWriter::field(const char *key, const T *val) noexcept {
if constexpr(is_integer_v<T>) {
if (targetValid() && (*val || m_json.isArray())) {
// the int type needs to be normalized because jsoncpp doesn't
// factor in every permutation unsigned long, etc.
if constexpr(is_signed_v<T>) {
value(key) = static_cast<Int<8 * sizeof(*val)>>(*val);
if constexpr(ox::is_signed_v<T>) {
value(key) = static_cast<ox::Int<8 * sizeof(*val)>>(*val);
} else {
value(key) = static_cast<Uint<8 * sizeof(*val)>>(*val);
value(key) = static_cast<ox::Uint<8 * sizeof(*val)>>(*val);
}
}
} else if constexpr(isVector_v<T> || isArray_v<T>) {
return field(key, val->data(), val->size());
} else if (val && targetValid()) {
OrganicClawWriter w;
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{w};
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{&w};
OX_RETURN_ERROR(model(&handler, val));
if (!w.m_json.empty() || m_json.isArray()) {
value(key) = w.m_json;
@@ -241,10 +241,10 @@ Error OrganicClawWriter::field(CString key, T const *val) noexcept {
}
template<typename U, bool force>
Error OrganicClawWriter::field(CString key, UnionView<U, force> val) noexcept {
Error OrganicClawWriter::field(const char *key, UnionView<U, force> val) noexcept {
if (targetValid()) {
OrganicClawWriter w(val.idx());
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{w};
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler{&w};
OX_RETURN_ERROR(model(&handler, val.get()));
if (!w.m_json.isNull()) {
value(key) = w.m_json;
@@ -254,12 +254,12 @@ Error OrganicClawWriter::field(CString key, UnionView<U, force> val) noexcept {
return {};
}
Result<Buffer> writeOC(auto const &val) noexcept {
Result<ox::Buffer> writeOC(const auto &val) noexcept {
OrganicClawWriter writer;
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler(writer);
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler(&writer);
OX_RETURN_ERROR(model(&handler, &val));
Json::StreamWriterBuilder const jsonBuilder;
auto const str = Json::writeString(jsonBuilder, writer.m_json);
const auto str = Json::writeString(jsonBuilder, writer.m_json);
Result<Buffer> buff;
buff.value.resize(str.size() + 1);
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
@@ -268,13 +268,13 @@ Result<Buffer> writeOC(auto const &val) noexcept {
return buff;
}
Result<String> writeOCString(auto const &val) noexcept {
Result<ox::String> writeOCString(const auto &val) noexcept {
OrganicClawWriter writer;
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler(writer);
ModelHandlerInterface<OrganicClawWriter, OpType::Write> handler(&writer);
OX_RETURN_ERROR(model(&handler, &val));
Json::StreamWriterBuilder const jsonBuilder;
auto const str = Json::writeString(jsonBuilder, writer.m_json);
Result<String> buff;
const auto str = Json::writeString(jsonBuilder, writer.m_json);
Result<ox::String> buff;
buff.value.resize(str.size());
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
memcpy(buff.value.data(), str.data(), str.size() + 1);

4
deps/ox/src/ox/std/array.hpp vendored
View File

@@ -181,13 +181,13 @@ constexpr Array<T, ArraySize> &Array<T, ArraySize>::operator=(Array &&other) noe
template<typename T, std::size_t ArraySize>
constexpr T &Array<T, ArraySize>::operator[](std::size_t i) noexcept {
boundsCheck(i, size(), "Array access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Array access overflow");
return m_items[i];
}
template<typename T, std::size_t ArraySize>
constexpr const T &Array<T, ArraySize>::operator[](std::size_t i) const noexcept {
boundsCheck(i, size(), "Array access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Array access overflow");
return m_items[i];
}

58
deps/ox/src/ox/std/assert.cpp vendored
View File

@@ -15,8 +15,8 @@
namespace ox {
void panic(Error const &err, StringViewCR panicMsg, std::source_location const &src) noexcept {
oxErrf("\033[31;1;1mPANIC:\033[0m [{}:{}]: {}\n", src.file_name(), src.line(), panicMsg);
void panic(StringViewCR file, int const line, StringViewCR panicMsg, Error const&err) noexcept {
oxErrf("\033[31;1;1mPANIC:\033[0m [{}:{}]: {}\n", file, line, panicMsg);
if (err.msg) {
oxErrf("\tError Message:\t{}\n", err.msg);
}
@@ -26,61 +26,41 @@ void panic(Error const &err, StringViewCR panicMsg, std::source_location const &
}
#ifdef OX_USE_STDLIB
printStackTrace(2);
oxTrace("panic").del("") << "Panic: " << panicMsg << " (" << src.file_name() << ":" << src.line() << ")";
oxTrace("panic").del("") << "Panic: " << panicMsg << " (" << file << ":" << line << ")";
std::abort();
#else
while (1);
#endif
}
#if __GNUC__ && !_WIN32
__attribute__((weak))
#endif
void panic(Error const &err, char const*panicMsg, std::source_location const &src) noexcept {
panic(err, StringView{panicMsg}, src);
void panic(const char *file, int const line, char const*panicMsg, Error const&err) noexcept {
panic(StringView{file}, line, StringView{panicMsg}, err);
}
void assertFailFuncRuntime(
StringViewCR file,
int const line,
StringViewCR assertTxt,
StringViewCR msg,
std::source_location const &src) noexcept {
StringViewCR msg) noexcept {
#ifdef OX_USE_STDLIB
auto const st = genStackTrace(2);
oxTracef(
"assert", "Failed assert: {} ({}) [{}:{}]:\n{}",
msg,
assertTxt,
src.file_name(),
src.line(),
st);
oxTracef("assert", "Failed assert: {} ({}) [{}:{}]:\n{}", msg, assertTxt, file, line, st);
abort();
#else
oxErrf(
"\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n",
src.file_name(),
src.line(),
msg);
oxTracef(
"assert", "Failed assert: {} ({}) [{}:{}]",
msg,
assertTxt,
src.file_name(),
src.line());
constexprPanic(msg, {}, src);
oxErrf("\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n", file, line, msg);
oxTracef("assert", "Failed assert: {} ({}) [{}:{}]", msg, assertTxt, file, line);
constexprPanic(file, line, msg);
#endif
}
void assertFailFuncRuntime(
[[maybe_unused]] Error const &err,
StringViewCR file,
int const line,
[[maybe_unused]] Error const&err,
StringViewCR,
StringViewCR assertMsg,
std::source_location const &src) noexcept {
StringViewCR assertMsg) noexcept {
#if defined(OX_USE_STDLIB)
auto msg = sfmt(
"\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n",
src.file_name(),
src.line(),
assertMsg);
auto msg = sfmt("\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n", file, line, assertMsg);
if (err.msg) {
msg += sfmt("\tError Message:\t{}\n", err.msg);
}
@@ -90,10 +70,10 @@ void assertFailFuncRuntime(
}
msg += genStackTrace(2);
oxErr(msg);
oxTracef("assert", "Failed assert: {} [{}:{}]", assertMsg, src.file_name(), src.line());
oxTracef("assert", "Failed assert: {} [{}:{}]", assertMsg, file, line);
abort();
#else
constexprPanic(assertMsg, {}, src);
constexprPanic(file, line, assertMsg);
#endif
}

75
deps/ox/src/ox/std/assert.hpp vendored
View File

@@ -23,49 +23,42 @@
namespace ox {
[[noreturn]]
void panic(
Error const&err,
StringViewCR panicMsg,
std::source_location const &src = std::source_location::current()) noexcept;
[[noreturn]]
inline void panic(
StringViewCR panicMsg,
std::source_location const &src = std::source_location::current()) noexcept {
panic(Error{1}, panicMsg, src);
}
void panic(StringViewCR file, int line, StringViewCR panicMsg, Error const&err = {}) noexcept;
[[noreturn]]
constexpr void constexprPanic(
StringViewCR file,
int const line,
StringViewCR panicMsg,
Error const &err = {},
std::source_location const &src = std::source_location::current()) noexcept {
Error const&err = {}) noexcept {
if (!std::is_constant_evaluated()) {
panic(err, panicMsg, src);
panic(file, line, panicMsg, err);
} else {
while (true);
}
}
void assertFailFuncRuntime(
StringViewCR file,
int line,
StringViewCR assertTxt,
StringViewCR msg,
std::source_location const &src = std::source_location::current()) noexcept;
StringViewCR msg) noexcept;
void assertFailFuncRuntime(
Error const &err,
StringViewCR file,
int line,
Error const&err,
StringViewCR,
StringViewCR assertMsg,
std::source_location const &src = std::source_location::current()) noexcept;
StringViewCR assertMsg) noexcept;
constexpr void assertFunc(
StringViewCR file,
int const line,
bool const pass,
[[maybe_unused]]StringViewCR assertTxt,
[[maybe_unused]]StringViewCR msg,
std::source_location const &src = std::source_location::current()) noexcept {
[[maybe_unused]]StringViewCR msg) noexcept {
if (!pass) {
if (!std::is_constant_evaluated()) {
assertFailFuncRuntime(assertTxt, msg, src);
assertFailFuncRuntime(file, line, assertTxt, msg);
} else {
while (true);
}
@@ -73,13 +66,14 @@ constexpr void assertFunc(
}
constexpr void assertFunc(
Error const &err,
StringViewCR file,
int const line,
Error const&err,
StringViewCR,
StringViewCR assertMsg,
std::source_location const &src = std::source_location::current()) noexcept {
StringViewCR assertMsg) noexcept {
if (err) {
if (!std::is_constant_evaluated()) {
assertFailFuncRuntime(err, {}, assertMsg, src);
assertFailFuncRuntime(file, line, err, {}, assertMsg);
} else {
while (true);
}
@@ -87,31 +81,20 @@ constexpr void assertFunc(
}
constexpr void expect(
auto const &actual,
auto const &expected,
std::source_location const &src = std::source_location::current()) noexcept {
StringViewCR file,
int const line,
auto const&actual,
auto const&expected) noexcept {
if (actual != expected) {
if (!std::is_constant_evaluated()) {
#if defined(OX_USE_STDLIB)
oxErrf(
"\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n",
src.file_name(),
src.line(),
"Value incorrect");
oxErrf(
"expected: {}\nactual: {}\n",
detail::toStringView<true>(expected),
detail::toStringView<true>(actual));
oxErrf("\n\033[31;1;1mASSERT FAILURE:\033[0m [{}:{}]: {}\n", file, line, "Value incorrect");
oxErrf("expected: {}\nactual: {}\n", detail::toStringView<true>(expected), detail::toStringView<true>(actual));
printStackTrace(2);
oxTracef(
"assert.expect", "Failed assert: {} == {} [{}:{}]",
detail::toStringView<true>(actual),
detail::toStringView<true>(expected),
src.file_name(),
src.line());
oxTracef("assert.expect", "Failed assert: {} == {} [{}:{}]", detail::toStringView<true>(actual), detail::toStringView<true>(expected), file, line);
std::abort();
#else
constexprPanic("Comparison failed", {}, src);
constexprPanic(file, line, "Comparison failed");
#endif
} else {
while (true);

2
deps/ox/src/ox/std/basestringview.hpp vendored
View File

@@ -185,7 +185,7 @@ class BaseStringView {
}
[[nodiscard]]
constexpr auto size() const noexcept {
constexpr auto len() const noexcept {
return m_len;
}

8
deps/ox/src/ox/std/byteswap.hpp vendored
View File

@@ -17,19 +17,19 @@ namespace ox {
template<typename T>
[[nodiscard]]
constexpr T byteSwap(T const i) noexcept requires(sizeof(T) == 1) {
constexpr T byteSwap(typename enable_if<sizeof(T) == 1, T>::type i) noexcept {
return i;
}
template<typename T>
[[nodiscard]]
constexpr T byteSwap(T const i) noexcept requires(sizeof(T) == 2) {
constexpr T byteSwap(typename enable_if<sizeof(T) == 2, T>::type i) noexcept {
return static_cast<T>(i << 8) | static_cast<T>(i >> 8);
}
template<typename T>
[[nodiscard]]
constexpr T byteSwap(T const i) noexcept requires(sizeof(T) == 4) {
constexpr T byteSwap(typename enable_if<sizeof(T) == 4, T>::type i) noexcept {
return ((i >> 24) & 0x000000ff) |
((i >> 8) & 0x0000ff00) |
((i << 8) & 0x00ff0000) |
@@ -38,7 +38,7 @@ constexpr T byteSwap(T const i) noexcept requires(sizeof(T) == 4) {
template<typename T>
[[nodiscard]]
constexpr T byteSwap(T const i) noexcept requires(sizeof(T) == 8) {
constexpr T byteSwap(typename enable_if<sizeof(T) == 8, T>::type i) noexcept {
return ((i >> 56) & 0x00000000000000ff) |
((i >> 40) & 0x000000000000ff00) |
((i >> 24) & 0x0000000000ff0000) |

4
deps/ox/src/ox/std/concepts.hpp vendored
View File

@@ -32,8 +32,4 @@ concept Integral_c = ox::is_integral_v<T>;
template<typename T, size_t max>
concept IntegerRange_c = ox::is_integer_v<T> && ox::MaxValue<T> >= max;
template<typename Union>
concept Union_c = is_union_v<Union>;
}

8
deps/ox/src/ox/std/cstringview.hpp vendored
View File

@@ -21,13 +21,13 @@ class CStringView: public detail::BaseStringView {
constexpr CStringView(CStringView const&sv) noexcept = default;
constexpr CStringView(StringLiteral const&str) noexcept: BaseStringView(str.data(), str.size()) {}
constexpr CStringView(StringLiteral const&str) noexcept: BaseStringView(str.data(), str.len()) {}
template<std::size_t SmallStrSz>
constexpr CStringView(BasicString<SmallStrSz> const&str) noexcept: BaseStringView(str.data(), str.size()) {}
constexpr CStringView(BasicString<SmallStrSz> const&str) noexcept: BaseStringView(str.data(), str.len()) {}
template<std::size_t SmallStrSz>
constexpr CStringView(IString<SmallStrSz> const&str) noexcept: BaseStringView(str.data(), str.size()) {}
constexpr CStringView(IString<SmallStrSz> const&str) noexcept: BaseStringView(str.data(), str.len()) {}
constexpr CStringView(std::nullptr_t) noexcept {}
@@ -37,7 +37,7 @@ class CStringView: public detail::BaseStringView {
constexpr auto &operator=(CStringView const&other) noexcept {
if (&other != this) {
set(other.data(), other.size());
set(other.data(), other.len());
}
return *this;
}

5
deps/ox/src/ox/std/def.hpp vendored
View File

@@ -48,8 +48,9 @@
// Asserts
#define oxPanic(errCode, msg) ox::panic(__FILE__, __LINE__, msg, errCode)
#ifndef NDEBUG
#define oxAssert(pass, msg) ox::assertFunc(pass, #pass, msg)
#define oxAssert(pass, msg) ox::assertFunc(__FILE__, __LINE__, pass, #pass, msg)
#else
namespace ox {
struct [[nodiscard]] Error;
@@ -58,6 +59,8 @@ constexpr void oxAssert(bool, const char*) noexcept {}
constexpr void oxAssert(const ox::Error&, const char*) noexcept {}
#endif
#define oxExpect(actual, expected) ox::expect(__FILE__, __LINE__, actual, expected)
// Alloca
#if defined(_MSC_VER)

80
deps/ox/src/ox/std/error.hpp vendored
View File

@@ -17,7 +17,7 @@ class exception {
virtual ~exception() = default;
[[nodiscard]]
virtual char const *what() const noexcept {
virtual char const*what() const noexcept {
return "";
}
};
@@ -44,7 +44,7 @@ struct [[nodiscard]] Error {
explicit constexpr Error(
ErrorCode const errCode,
std::source_location const &src = std::source_location::current()) noexcept:
std::source_location const&src = std::source_location::current()) noexcept:
src{src},
errCode{errCode}
{}
@@ -52,7 +52,7 @@ struct [[nodiscard]] Error {
explicit constexpr Error(
ErrorCode const errCode,
ox::CString msg,
std::source_location const &src = std::source_location::current()) noexcept:
std::source_location const&src = std::source_location::current()) noexcept:
src{src},
msg{msg},
errCode{errCode}
@@ -65,13 +65,13 @@ struct [[nodiscard]] Error {
};
[[nodiscard]]
constexpr auto errCode(Error const &err) noexcept {
constexpr auto errCode(Error const&err) noexcept {
return err.errCode;
}
template<typename T = char const*>
[[nodiscard]]
constexpr auto toStr(Error const &err) noexcept {
constexpr auto toStr(Error const&err) noexcept {
return err.msg ? T{err.msg} : "";
}
@@ -82,19 +82,19 @@ struct Exception: public std::exception {
explicit Exception(
ErrorCode const errCode,
std::source_location const &src = std::source_location::current()) noexcept:
std::source_location const&src = std::source_location::current()) noexcept:
src{src},
errCode{errCode} {}
explicit Exception(
ErrorCode const errCode,
ox::CString msg,
std::source_location const &src = std::source_location::current()) noexcept:
std::source_location const&src = std::source_location::current()) noexcept:
src{src},
msg{msg},
errCode{errCode} {}
explicit Exception(Error const &err) noexcept:
explicit Exception(Error const&err) noexcept:
src{err.src},
msg{err.msg ? err.msg : ""},
errCode{err.errCode} {}
@@ -104,16 +104,13 @@ struct Exception: public std::exception {
}
[[nodiscard]]
char const *what() const noexcept override {
char const*what() const noexcept override {
return msg;
}
};
[[noreturn]]
void panic(
Error const &err,
char const *panicMsg,
std::source_location const &src = std::source_location::current()) noexcept;
void panic(char const*file, int line, char const*panicMsg, Error const&err) noexcept;
template<typename T>
struct [[nodiscard]] Result {
@@ -127,25 +124,25 @@ struct [[nodiscard]] Result {
}
template<typename U>
constexpr Result(Result<U> const &other) noexcept: value(other.value), error(other.error) {
constexpr Result(Result<U> const&other) noexcept: value(other.value), error(other.error) {
}
template<typename U>
constexpr Result(Result<U> &&other) noexcept: value(std::move(other.value)), error(std::move(other.error)) {
}
constexpr Result(Error const &error) noexcept: value(), error(error) {
constexpr Result(Error const&error) noexcept: value(), error(error) {
}
constexpr Result(type const &value, Error const &error = {}) noexcept: value(value), error(error) {
constexpr Result(type const&value, Error const&error = {}) noexcept: value(value), error(error) {
}
constexpr Result(type &&value, Error const &error = {}) noexcept: value(std::move(value)), error(error) {
constexpr Result(type &&value, Error const&error = {}) noexcept: value(std::move(value)), error(error) {
}
constexpr ~Result() noexcept = default;
explicit constexpr operator type const &() const noexcept {
explicit constexpr operator type const&() const noexcept {
return value;
}
@@ -159,7 +156,7 @@ struct [[nodiscard]] Result {
}
template<typename U>
constexpr Error copyTo(U &val) const & noexcept {
constexpr Error copyTo(U &val) const& noexcept {
if (!error) [[likely]] {
val = value;
}
@@ -185,7 +182,7 @@ struct [[nodiscard]] Result {
[[nodiscard]]
constexpr T &unwrap() & noexcept {
if (error) {
ox::panic(error, "Failed unwrap");
oxPanic(error, "Failed unwrap");
}
return value;
}
@@ -193,15 +190,15 @@ struct [[nodiscard]] Result {
[[nodiscard]]
constexpr T &&unwrap() && noexcept {
if (error) {
ox::panic(error, "Failed unwrap");
oxPanic(error, "Failed unwrap");
}
return std::move(value);
}
[[nodiscard]]
constexpr T const &unwrap() const & noexcept {
constexpr T const&unwrap() const & noexcept {
if (error) [[unlikely]] {
ox::panic(error, "Failed unwrap");
oxPanic(error, "Failed unwrap");
}
return value;
}
@@ -223,7 +220,7 @@ struct [[nodiscard]] Result {
}
[[nodiscard]]
constexpr T const &unwrapThrow() const & {
constexpr T const&unwrapThrow() const & {
if (error) {
throw ox::Exception(error);
}
@@ -247,7 +244,7 @@ struct [[nodiscard]] Result {
}
template<typename U = T>
constexpr ox::Result<U> to(auto const &f) & noexcept {
constexpr ox::Result<U> to(auto const&f) & noexcept {
if (error) [[unlikely]] {
return error;
}
@@ -255,7 +252,7 @@ struct [[nodiscard]] Result {
}
template<typename U = T>
constexpr ox::Result<U> to(auto const &f) && noexcept {
constexpr ox::Result<U> to(auto const&f) && noexcept {
if (error) [[unlikely]] {
return error;
}
@@ -267,7 +264,7 @@ struct [[nodiscard]] Result {
* @param alt
* @return value of Result or alt
*/
constexpr T or_value(T &&alt) const & noexcept {
constexpr T or_value(T &&alt) const& noexcept {
if (error) {
return std::move(alt);
}
@@ -291,7 +288,7 @@ struct [[nodiscard]] Result {
* @param alt
* @return value of Result or alt
*/
constexpr T or_value(T const &alt) const & noexcept {
constexpr T or_value(T const&alt) const& noexcept {
if (error) {
return alt;
}
@@ -303,54 +300,45 @@ struct [[nodiscard]] Result {
* @param alt
* @return value of Result or alt
*/
constexpr T or_value(T const &alt) && noexcept {
constexpr T or_value(T const&alt) && noexcept {
if (error) {
return alt;
}
return std::move(value);
}
constexpr Result transformError(ErrorCode const ec, CString const msg) && {
if (error) {
error = Error{ec, msg};
}
return *this;
}
};
namespace detail {
constexpr Error toError(Error const &e) noexcept {
constexpr Error toError(Error const&e) noexcept {
return e;
}
template<typename T>
constexpr Error toError(Result<T> const &r) noexcept {
constexpr Error toError(Result<T> const&r) noexcept {
return r.error;
}
}
constexpr void primitiveAssert(
bool const pass,
char const *msg,
std::source_location const &src = std::source_location::current()) noexcept {
constexpr void primitiveAssert(char const*file, int line, bool pass, char const*msg) noexcept {
if constexpr(ox::defines::Debug) {
if (!pass) [[unlikely]] {
panic(ox::Error{1}, msg, src);
panic(file, line, msg, ox::Error(1));
}
}
}
constexpr void boundsCheck(
char const*file,
int const line,
size_t const i,
size_t const sz,
char const *msg,
std::source_location const &src = std::source_location::current()) noexcept {
char const*msg) noexcept {
if constexpr(defines::CheckBounds) {
if (i >= sz) [[unlikely]] {
panic(ox::Error{1}, msg, src);
panic(file, line, msg, ox::Error{1});
}
}
}

4
deps/ox/src/ox/std/heapmgr.cpp vendored
View File

@@ -77,7 +77,7 @@ static HeapSegment *findSegmentFor(std::size_t sz) noexcept {
return s;
}
}
ox::panic("malloc: could not find segment");
oxPanic(ox::Error(1), "malloc: could not find segment");
return nullptr;
}
@@ -102,7 +102,7 @@ void free(void *ptr) noexcept {
} else if (p.segment) {
p.segment->inUse = false;
} else {
ox::panic("Bad heap free");
oxPanic(ox::Error(1), "Bad heap free");
}
}

2
deps/ox/src/ox/std/ignore.hpp vendored
View File

@@ -16,7 +16,7 @@
namespace std {
inline constexpr struct ignore_t {
inline constexpr struct {
constexpr void operator=(auto&&) const noexcept {}
} ignore;

10
deps/ox/src/ox/std/istring.hpp vendored
View File

@@ -72,7 +72,7 @@ class IString {
* Returns the number of characters in this string.
*/
[[nodiscard]]
constexpr std::size_t size() const noexcept;
constexpr std::size_t len() const noexcept;
/**
* Returns the number of bytes used for this string.
@@ -121,7 +121,7 @@ constexpr IString<size> &IString<size>::operator=(Integer_c auto i) noexcept {
template<std::size_t size>
constexpr IString<size> &IString<size>::operator=(ox::StringViewCR str) noexcept {
std::size_t strLen = str.size();
std::size_t strLen = str.len();
if (cap() < strLen) {
strLen = cap();
}
@@ -171,7 +171,7 @@ constexpr char &IString<StrCap>::operator[](std::size_t i) noexcept {
template<std::size_t StrCap>
constexpr Error IString<StrCap>::append(const char *str, std::size_t strLen) noexcept {
Error err{};
auto const currentLen = size();
auto const currentLen = len();
if (cap() < currentLen + strLen) {
strLen = cap() - currentLen;
err = ox::Error(1, "Insufficient space for full string");
@@ -187,7 +187,7 @@ OX_CLANG_NOWARN_END
template<std::size_t StrCap>
constexpr Error IString<StrCap>::append(ox::StringView str) noexcept {
return append(str.data(), str.size());
return append(str.data(), str.len());
}
template<std::size_t StrCap>
@@ -207,7 +207,7 @@ constexpr const char *IString<StrCap>::c_str() const noexcept {
template<std::size_t StrCap>
constexpr std::size_t IString<StrCap>::size() const noexcept {
constexpr std::size_t IString<StrCap>::len() const noexcept {
return m_size;
}

6
deps/ox/src/ox/std/iterator.hpp vendored
View File

@@ -133,17 +133,17 @@ struct SpanIterator {
}
constexpr PtrType operator->() const noexcept {
boundsCheck(m_offset, m_max, "SpanIterator access overflow");
boundsCheck(__FILE__, __LINE__, m_offset, m_max, "SpanIterator access overflow");
return &m_t[m_offset];
}
constexpr RefType operator*() const noexcept {
boundsCheck(m_offset, m_max, "SpanIterator access overflow");
boundsCheck(__FILE__, __LINE__, m_offset, m_max, "SpanIterator access overflow");
return m_t[m_offset];
}
constexpr RefType operator[](std::size_t s) const noexcept {
boundsCheck(s, m_max, "SpanIterator access overflow");
boundsCheck(__FILE__, __LINE__, s, m_max, "SpanIterator access overflow");
return m_t[s];
}

3
deps/ox/src/ox/std/memory.hpp vendored
View File

@@ -213,7 +213,8 @@ class UniquePtr {
return m_t;
}
constexpr void reset(UniquePtr &&other = UniquePtr()) {
template<typename U, typename UDeleter>
constexpr void reset(UniquePtr<U, UDeleter> &&other = UniquePtr()) {
auto t = m_t;
m_t = other.release();
Deleter()(t);

44
deps/ox/src/ox/std/new.hpp vendored
View File

@@ -30,60 +30,22 @@ constexpr void *operator new(std::size_t, void *addr) noexcept {
constexpr void *operator new[](std::size_t, void *addr) noexcept {
return addr;
}
namespace std {
template<typename T>
[[nodiscard]]
constexpr T* launder(T* __p) noexcept {
return __builtin_launder(__p);
}
template<typename T, typename... Args, bool noex>
void launder(T(*)(Args...) noexcept(noex)) = delete;
template<typename T, typename... Args, bool noex>
void launder(T(*)(Args......) noexcept(noex)) = delete;
void launder(void*) = delete;
void launder(void const*) = delete;
void launder(volatile void*) = delete;
void launder(volatile void const*) = delete;
}
#endif
namespace ox {
/**
* Aliases type T in size and alignment to allow allocating space for a T
* without running the constructor.
*/
template<typename T, std::size_t sz = sizeof(T)>
struct alignas(alignof(T)) AllocAlias {
char buff[sz];
constexpr AllocAlias() noexcept = default;
[[nodiscard]]
auto data() noexcept {
return reinterpret_cast<T*>(this);
}
[[nodiscard]]
auto data() const noexcept {
return reinterpret_cast<T const*>(this);
}
};
template<typename T, typename U = T, typename ...Args>
[[nodiscard]]
constexpr U *make(Args &&...args) noexcept {
#ifdef __cpp_exceptions
try {
return new T(ox::forward<Args>(args)...);
} catch (std::exception const &ex) {
ox::panic(ox::Error(1, ex.what()), ex.what());
} catch (std::exception const&ex) {
oxPanic(ox::Error(1, ex.what()), ex.what());
return nullptr;
} catch (...) {
ox::panic(ox::Error(2, "Allocation or constructor failed"), "Allocation or constructor failed");
oxPanic(ox::Error(2, "Allocation or constructor failed"), "Allocation or constructor failed");
return nullptr;
}
#else

10
deps/ox/src/ox/std/reader.cpp vendored
View File

@@ -30,15 +30,13 @@ constexpr std::ios_base::seekdir sdMap(ox::ios_base::seekdir in) noexcept {
ox::Result<char> StreamReader::peek() const noexcept {
try {
if (m_strm.eof()) {
return Error{1, "EOF"};
}
char c{};
m_strm.get(c);
if (m_strm.unget()) [[unlikely]] {
return ox::Error{1, "Unable to unget character"};
auto const ok = c != EOF;
if (ok && m_strm.unget()) [[unlikely]] {
return ox::Error(1, "Unable to unget character");
}
return static_cast<char>(c);
return {static_cast<char>(c), ox::Error(!ok, "File peek failed")};
} catch (std::exception const&) {
return ox::Error(1, "peek failed");
}

30
deps/ox/src/ox/std/span.hpp vendored
View File

@@ -47,7 +47,7 @@ class Span {
}
template<std::size_t sz>
constexpr Span(std::array<ox::remove_const_t<T>, sz> const &a) noexcept:
constexpr Span(std::array<ox::remove_const_t<T>, sz> const&a) noexcept:
m_items(a.data()),
m_size(a.size()) {
}
@@ -60,7 +60,7 @@ class Span {
}
template<std::size_t sz>
constexpr Span(ox::Array<ox::remove_const_t<T>, sz> const &a) noexcept:
constexpr Span(ox::Array<ox::remove_const_t<T>, sz> const&a) noexcept:
m_items(a.data()),
m_size(a.size()) {
}
@@ -72,7 +72,7 @@ class Span {
}
template<std::size_t sz, typename Allocator>
constexpr Span(ox::Vector<ox::remove_const_t<T>, sz, Allocator> const &v) noexcept:
constexpr Span(ox::Vector<ox::remove_const_t<T>, sz, Allocator> const&v) noexcept:
m_items(v.data()),
m_size(v.size()) {
}
@@ -147,40 +147,22 @@ class Span {
}
constexpr T &operator[](std::size_t i) const noexcept {
boundsCheck(i, size(), "Span access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Span access overflow");
return m_items[i];
}
constexpr Span operator+(size_t i) const noexcept {
boundsCheck(i, size(), "Span access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Span access overflow");
return {m_items + i, m_size - i};
}
constexpr Span operator+=(size_t i) noexcept {
boundsCheck(i, size(), "Span access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Span access overflow");
m_items += i;
m_size -= i;
return *this;
}
constexpr Span operator++(int) noexcept {
++m_items;
--m_size;
if (!m_size) [[unlikely]] {
m_items = nullptr;
}
return *this;
}
constexpr Span operator++() noexcept {
++m_items;
--m_size;
if (!m_size) [[unlikely]] {
m_items = nullptr;
}
return *this;
}
[[nodiscard]]
constexpr auto data() const noexcept {
return m_items;

56
deps/ox/src/ox/std/strconv.hpp vendored
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@@ -17,41 +17,35 @@
namespace ox {
template<Integer_c Integer>
constexpr ox::Error writeItoa(Integer const v, ox::Writer_c auto &writer) noexcept {
if (v) {
ox::ResizedInt_t<Integer, 64> mod = 1000000000000000000;
ox::ResizedInt_t<Integer, 64> val = v;
constexpr auto base = 10;
auto it = 0;
if (val < 0) {
OX_RETURN_ERROR(writer.put('-'));
val = ~val + 1;
}
if constexpr(sizeof(v) == 8 && !ox::is_signed_v<Integer>) {
auto digit = val / mod;
val %= mod;
mod /= base;
if (digit) {
digit -= 10;
OX_RETURN_ERROR(writer.put('1'));
OX_RETURN_ERROR(writer.put(static_cast<char>('0' + digit)));
constexpr ox::Error writeItoa(Integer v, ox::Writer_c auto &writer) noexcept {
if (v) {
ox::ResizedInt_t<Integer, 64> mod = 1000000000000000000;
ox::ResizedInt_t<Integer, 64> val = v;
constexpr auto base = 10;
auto it = 0;
if (val < 0) {
OX_RETURN_ERROR(writer.put('-'));
++it;
}
}
while (mod) {
auto const digit = val / mod;
val %= mod;
mod /= base;
if (it || digit) {
OX_RETURN_ERROR(writer.put(static_cast<char>('0' + digit)));
++it;
while (mod) {
auto digit = val / mod;
val %= mod;
mod /= base;
if (it || digit) {
ox::ResizedInt_t<Integer, 64> start = '0';
if (digit >= 10) {
start = 'a';
digit -= 10;
}
OX_RETURN_ERROR(writer.put(static_cast<char>(start + digit)));
++it;
}
}
} else {
// 0 is a special case
OX_RETURN_ERROR(writer.put('0'));
}
} else {
// 0 is a special case
OX_RETURN_ERROR(writer.put('0'));
}
return {};
return {};
}
}

40
deps/ox/src/ox/std/string.hpp vendored
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@@ -139,7 +139,7 @@ class BasicString {
constexpr BasicString &operator+=(Integer_c auto i) noexcept;
constexpr BasicString &operator+=(StringViewCR src) noexcept;
constexpr BasicString &operator+=(StringView src) noexcept;
constexpr BasicString &operator+=(BasicString const&src) noexcept;
@@ -176,7 +176,7 @@ class BasicString {
constexpr char &operator[](std::size_t i) noexcept;
constexpr Error append(const char *str, std::size_t strLen) noexcept {
auto currentLen = size();
auto currentLen = len();
m_buff.resize(m_buff.size() + strLen);
ox::listcpy(&m_buff[currentLen], str, strLen);
// make sure last element is a null terminator
@@ -185,8 +185,8 @@ class BasicString {
return {};
}
constexpr Error append(StringViewCR sv) noexcept {
return append(sv.data(), sv.size());
constexpr Error append(ox::StringView sv) noexcept {
return append(sv.data(), sv.len());
}
[[nodiscard]]
@@ -237,7 +237,7 @@ class BasicString {
* Returns the number of characters in this string.
*/
[[nodiscard]]
constexpr std::size_t size() const noexcept;
constexpr std::size_t len() const noexcept;
/**
* Returns the number of bytes used for this string.
@@ -277,7 +277,7 @@ constexpr BasicString<SmallStringSize_v>::BasicString(const char *str, std::size
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v>::BasicString(StringLiteral const&str) noexcept:
BasicString(StringView{str.data(), str.size()}) {
BasicString(StringView{str.data(), str.len()}) {
}
template<std::size_t SmallStringSize_v>
@@ -376,7 +376,7 @@ constexpr BasicString<SmallStringSize_v> &BasicString<SmallStringSize_v>::operat
}
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v> &BasicString<SmallStringSize_v>::operator+=(StringViewCR s) noexcept {
constexpr BasicString<SmallStringSize_v> &BasicString<SmallStringSize_v>::operator+=(StringView s) noexcept {
std::size_t strLen = s.bytes();
std::ignore = append(s.data(), strLen);
return *this;
@@ -384,14 +384,14 @@ constexpr BasicString<SmallStringSize_v> &BasicString<SmallStringSize_v>::operat
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v> &BasicString<SmallStringSize_v>::operator+=(BasicString const&src) noexcept {
std::ignore = append(src.c_str(), src.size());
std::ignore = append(src.c_str(), src.len());
return *this;
}
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v> BasicString<SmallStringSize_v>::operator+(const char *str) const noexcept {
const std::size_t strLen = ox::strlen(str);
const auto currentLen = size();
const auto currentLen = len();
BasicString<SmallStringSize_v> cpy;
cpy.m_buff.resize(m_buff.size() + strLen);
ox::listcpy(&cpy.m_buff[0], m_buff.data(), currentLen);
@@ -420,8 +420,8 @@ constexpr BasicString<SmallStringSize_v> BasicString<SmallStringSize_v>::operato
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v> BasicString<SmallStringSize_v>::operator+(StringViewCR src) const noexcept {
const std::size_t strLen = src.size();
const auto currentLen = size();
const std::size_t strLen = src.len();
const auto currentLen = len();
BasicString<SmallStringSize_v> cpy(currentLen + strLen);
cpy.m_buff.resize(m_buff.size() + strLen);
ox::listcpy(&cpy.m_buff[0], m_buff.data(), currentLen);
@@ -432,8 +432,8 @@ constexpr BasicString<SmallStringSize_v> BasicString<SmallStringSize_v>::operato
template<std::size_t SmallStringSize_v>
constexpr BasicString<SmallStringSize_v> BasicString<SmallStringSize_v>::operator+(BasicString const&src) const noexcept {
const std::size_t strLen = src.size();
const auto currentLen = size();
const std::size_t strLen = src.len();
const auto currentLen = len();
BasicString<SmallStringSize_v> cpy(currentLen + strLen);
cpy.m_buff.resize(m_buff.size() + strLen);
ox::listcpy(&cpy.m_buff[0], m_buff.data(), currentLen);
@@ -456,7 +456,7 @@ constexpr bool BasicString<SmallStringSize_v>::operator==(const char *other) con
template<std::size_t SmallStringSize_v>
constexpr bool BasicString<SmallStringSize_v>::operator==(OxString_c auto const&other) const noexcept {
return StringView(*this) == StringView(other);
return ox::StringView(*this) == ox::StringView(other);
}
template<std::size_t SmallStringSize_v>
@@ -521,7 +521,7 @@ constexpr std::size_t BasicString<SmallStringSize_v>::bytes() const noexcept {
}
template<std::size_t SmallStringSize_v>
constexpr std::size_t BasicString<SmallStringSize_v>::size() const noexcept {
constexpr std::size_t BasicString<SmallStringSize_v>::len() const noexcept {
return m_buff.size() - 1;
}
@@ -548,28 +548,28 @@ using StringCR = String const&;
[[nodiscard]]
constexpr String toString(StringViewCR sv) noexcept {
constexpr ox::String toString(ox::StringViewCR sv) noexcept {
return ox::String(sv);
}
template<typename PlatSpec, std::size_t SmallStringSize_v>
[[nodiscard]]
constexpr auto sizeOf(BasicString<SmallStringSize_v> const*) noexcept {
constexpr auto sizeOf(const ox::BasicString<SmallStringSize_v>*) noexcept {
VectorMemMap<PlatSpec> v{.smallVecSize = SmallStringSize_v};
return sizeOf<PlatSpec>(&v);
}
template<typename PlatSpec, std::size_t SmallStringSize_v>
[[nodiscard]]
constexpr auto alignOf(BasicString<SmallStringSize_v> const&) noexcept {
constexpr auto alignOf(const ox::BasicString<SmallStringSize_v>&) noexcept {
VectorMemMap<PlatSpec> v{.smallVecSize = SmallStringSize_v};
return alignOf<PlatSpec>(&v);
}
template<size_t sz>
struct MaybeView<BasicString<sz>> {
using type = StringView;
struct MaybeView<ox::BasicString<sz>> {
using type = ox::StringView;
};
}

21
deps/ox/src/ox/std/stringliteral.hpp vendored
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@@ -16,28 +16,35 @@ namespace ox {
* StringLiteral is used for functions that want to ensure that they are taking
* string literals, and not strings outside of the data section of the program
* that might get deleted.
* This type cannot force you to use it correctly, so don't give it something
* that is not a literal.
* If you do this:
* StringLiteral(str.c_str())
* the resulting segfault is on you.
*/
class StringLiteral: public detail::BaseStringView {
public:
constexpr StringLiteral() noexcept = default;
constexpr StringLiteral(StringLiteral const &sv) noexcept = default;
constexpr StringLiteral(StringLiteral const&sv) noexcept = default;
consteval StringLiteral(std::nullptr_t) noexcept {}
constexpr explicit StringLiteral(std::nullptr_t) noexcept {}
consteval StringLiteral(char const *str, std::size_t const len) noexcept: BaseStringView{str, len} {}
constexpr explicit StringLiteral(const char *str, std::size_t len) noexcept: BaseStringView(str, len) {}
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
consteval StringLiteral(char const *str) noexcept: StringLiteral{str, ox::strlen(str)} {}
constexpr explicit StringLiteral(char const *str) noexcept: StringLiteral(str, ox::strlen(str)) {}
OX_ALLOW_UNSAFE_BUFFERS_END
constexpr StringLiteral &operator=(StringLiteral const &other) noexcept {
set(other.data(), other.size());
constexpr StringLiteral &operator=(StringLiteral const&other) noexcept {
if (&other != this) {
set(other.data(), other.len());
}
return *this;
}
[[nodiscard]]
constexpr char const *c_str() const noexcept {
constexpr const char *c_str() const noexcept {
return data();
}

1
deps/ox/src/ox/std/stringparam.hpp vendored
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@@ -8,7 +8,6 @@
#pragma once
#include "cstringview.hpp"
#include "string.hpp"
namespace ox {

20
deps/ox/src/ox/std/stringview.hpp vendored
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@@ -40,10 +40,10 @@ class StringView: public detail::BaseStringView {
constexpr StringView(BaseStringView const&str) noexcept: BaseStringView(str.data(), str.bytes()) {}
template<std::size_t SmallStrSz>
constexpr StringView(const BasicString<SmallStrSz> &str) noexcept: BaseStringView(str.data(), str.size()) {}
constexpr StringView(const BasicString<SmallStrSz> &str) noexcept: BaseStringView(str.data(), str.len()) {}
template<std::size_t SmallStrSz>
constexpr StringView(const IString<SmallStrSz> &str) noexcept: BaseStringView(str.data(), str.size()) {}
constexpr StringView(const IString<SmallStrSz> &str) noexcept: BaseStringView(str.data(), str.len()) {}
constexpr StringView(std::nullptr_t) noexcept {}
@@ -53,7 +53,7 @@ class StringView: public detail::BaseStringView {
constexpr auto &operator=(StringView const&other) noexcept {
if (&other != this) {
set(other.data(), other.size());
set(other.data(), other.len());
}
return *this;
}
@@ -63,14 +63,14 @@ class StringView: public detail::BaseStringView {
using StringViewCR = StringView const&;
constexpr auto operator==(StringViewCR s1, StringViewCR s2) noexcept {
if (s2.size() != s1.size()) {
if (s2.len() != s1.len()) {
return false;
}
return ox::strncmp(s1.data(), s2.data(), s1.size()) == 0;
return ox::strncmp(s1.data(), s2.data(), s1.len()) == 0;
}
constexpr auto operator<=>(StringViewCR s1, StringViewCR s2) noexcept {
const auto maxLen = ox::min(s1.size(), s2.size());
const auto maxLen = ox::min(s1.len(), s2.len());
const auto a = &s1.front();
const auto b = &s2.front();
for (std::size_t i = 0; i < maxLen && (a[i] || b[i]); ++i) {
@@ -80,9 +80,9 @@ constexpr auto operator<=>(StringViewCR s1, StringViewCR s2) noexcept {
return 1;
}
}
if (s1.size() > s2.size()) {
if (s1.len() > s2.len()) {
return 1;
} else if (s1.size() < s2.size()) {
} else if (s1.len() < s2.len()) {
return -1;
} else {
return 0;
@@ -104,10 +104,10 @@ constexpr ox::Result<int> strToInt(StringViewCR str) noexcept {
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
int total = 0;
int multiplier = 1;
if (str.size() == 0) [[unlikely]] {
if (str.len() == 0) [[unlikely]] {
return Error{1, "Empty string passed to strToInt"};
}
for (auto i = static_cast<int64_t>(str.size()) - 1; i != -1; --i) {
for (auto i = static_cast<int64_t>(str.len()) - 1; i != -1; --i) {
auto s = static_cast<std::size_t>(i);
if (str[s] >= '0' && str[s] <= '9') {
total += (str[s] - '0') * multiplier;

48
deps/ox/src/ox/std/strops.hpp vendored
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@@ -21,47 +21,37 @@ OX_CLANG_NOWARN_BEGIN(-Wunsafe-buffer-usage)
namespace ox {
[[nodiscard]]
constexpr StringView substr(StringViewCR str, std::size_t const pos) noexcept {
if (str.size() >= pos) {
return {&str[pos], str.size() - pos};
constexpr ox::StringView substr(ox::StringView const&str, std::size_t pos) noexcept {
if (str.len() >= pos) {
return {&str[pos], str.len() - pos};
}
return {};
}
[[nodiscard]]
constexpr StringView substr(StringViewCR str, std::size_t const start, std::size_t const end) noexcept {
if (str.size() >= start && end >= start) {
constexpr ox::StringView substr(ox::StringView const&str, std::size_t start, std::size_t end) noexcept {
if (str.len() >= start && end >= start) {
return {&str[start], end - start};
}
return {};
}
[[nodiscard]]
constexpr bool beginsWith(StringViewCR base, char const beginning) noexcept {
return base.size() && base[0] == beginning;
}
[[nodiscard]]
constexpr bool endsWith(StringViewCR base, char const ending) noexcept {
return base.size() && base[base.size() - 1] == ending;
}
[[nodiscard]]
constexpr bool beginsWith(StringViewCR base, StringViewCR beginning) noexcept {
const auto beginningLen = ox::min(beginning.size(), base.size());
return base.size() >= beginning.size() && ox::strncmp(base.data(), beginning, beginningLen) == 0;
const auto beginningLen = ox::min(beginning.len(), base.len());
return base.len() >= beginning.len() && ox::strncmp(base.data(), beginning, beginningLen) == 0;
}
[[nodiscard]]
constexpr bool endsWith(StringViewCR base, StringViewCR ending) noexcept {
const auto endingLen = ending.size();
return base.size() >= endingLen && ox::strcmp(base.data() + (base.size() - endingLen), ending) == 0;
const auto endingLen = ending.len();
return base.len() >= endingLen && ox::strcmp(base.data() + (base.len() - endingLen), ending) == 0;
}
[[nodiscard]]
constexpr std::size_t find(StringViewCR str, char const search) noexcept {
constexpr std::size_t find(StringViewCR str, char search) noexcept {
std::size_t i = 0;
for (; i < str.size(); ++i) {
for (; i < str.len(); ++i) {
if (str[i] == search) {
break;
}
@@ -72,7 +62,7 @@ constexpr std::size_t find(StringViewCR str, char const search) noexcept {
[[nodiscard]]
constexpr std::size_t find(StringViewCR str, StringViewCR search) noexcept {
std::size_t i = 0;
for (; i < str.size(); ++i) {
for (; i < str.len(); ++i) {
if (beginsWith(substr(str, i), search)) {
break;
}
@@ -82,14 +72,14 @@ constexpr std::size_t find(StringViewCR str, StringViewCR search) noexcept {
template<std::size_t smallSz = 0>
[[nodiscard]]
constexpr ox::Vector<ox::StringView, smallSz> split(StringViewCR str, char const del) noexcept {
constexpr ox::Vector<ox::StringView, smallSz> split(StringViewCR str, char del) noexcept {
ox::Vector<ox::StringView, smallSz> out;
constexpr auto nextSeg = [](StringViewCR current, char del) {
return substr(current, find(current, del) + 1);
};
for (auto current = str; current.size(); current = nextSeg(current, del)) {
for (auto current = str; current.len(); current = nextSeg(current, del)) {
const auto next = find(current, del);
if (const auto s = substr(current, 0, next); s.size()) {
if (const auto s = substr(current, 0, next); s.len()) {
out.emplace_back(s);
}
current = substr(current, next);
@@ -102,11 +92,11 @@ template<std::size_t smallSz = 0>
constexpr ox::Vector<ox::StringView, smallSz> split(StringViewCR str, StringViewCR del) noexcept {
ox::Vector<ox::StringView, smallSz> out;
constexpr auto nextSeg = [](StringViewCR current, StringViewCR del) {
return substr(current, find(current, del) + del.size());
return substr(current, find(current, del) + del.len());
};
for (auto current = str; current.size(); current = nextSeg(current, del)) {
for (auto current = str; current.len(); current = nextSeg(current, del)) {
const auto next = find(current, del);
if (const auto s = substr(current, 0, next); s.size()) {
if (const auto s = substr(current, 0, next); s.len()) {
out.emplace_back(s);
}
current = substr(current, next);
@@ -115,7 +105,7 @@ constexpr ox::Vector<ox::StringView, smallSz> split(StringViewCR str, StringView
}
[[nodiscard]]
constexpr ox::Result<std::size_t> lastIndexOf(ox::StringViewCR str, int const character) noexcept {
constexpr ox::Result<std::size_t> lastIndexOf(ox::StringViewCR str, int character) noexcept {
ox::Result<std::size_t> retval = ox::Error(1, "Character not found");
for (auto i = static_cast<int>(str.bytes() - 1); i >= 0; --i) {
if (str[static_cast<std::size_t>(i)] == character) {

1
deps/ox/src/ox/std/test/CMakeLists.txt vendored
View File

@@ -28,4 +28,3 @@ add_test("[ox/std] FromHex" ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/StdTest "FromHex")
add_test("[ox/std] ToHex" ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/StdTest "ToHex")
add_test("[ox/std] UUID" ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/StdTest "UUID")
add_test("[ox/std] UUID::generate" ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/StdTest "UUID::generate")
add_test("[ox/std] intToStr" ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/StdTest "intToStr")

297
deps/ox/src/ox/std/test/tests.cpp vendored
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@@ -30,7 +30,7 @@ static uint64_t steadyNowMs() {
}
template<typename Map = ox::SmallMap<ox::String, ox::UUID>>
uint64_t timeMapStrToUuid(int const elemCnt, int const lookups, uint64_t seed = 4321) noexcept {
uint64_t timeMapStrToUuid(int elemCnt, int lookups, uint64_t seed = 4321) noexcept {
ox::UUID::seedGenerator({1234, seed});
Map map;
// setup test map
@@ -43,16 +43,15 @@ uint64_t timeMapStrToUuid(int const elemCnt, int const lookups, uint64_t seed =
// start
auto const startTime = steadyNowMs();
for (int i = 0; i < lookups; ++i) {
auto const &k = keys[rand.gen() % keys.size()];
auto const&k = keys[rand.gen() % keys.size()];
map[k];
ox::expect(map[k], ox::UUID::fromString(k).unwrap());
oxExpect(map[k], ox::UUID::fromString(k).unwrap());
}
return steadyNowMs() - startTime;
}
template<typename Map = ox::SmallMap<ox::UUID, ox::String>>
[[nodiscard]]
uint64_t timeMapUuidToStr(int const elemCnt, int const lookups, uint64_t seed = 4321) noexcept {
uint64_t timeMapUuidToStr(int elemCnt, int lookups, uint64_t seed = 4321) noexcept {
ox::UUID::seedGenerator({1234, seed});
Map map;
// setup test map
@@ -65,13 +64,13 @@ uint64_t timeMapUuidToStr(int const elemCnt, int const lookups, uint64_t seed =
// start
auto const startTime = steadyNowMs();
for (int i = 0; i < lookups; ++i) {
auto const &k = keys[rand.gen() % keys.size()];
ox::expect(map[k], k.toString());
auto const&k = keys[rand.gen() % keys.size()];
oxExpect(map[k], k.toString());
}
return steadyNowMs() - startTime;
}
static ox::Error compareMaps(int const lookupCnt = 1'000'000) {
static ox::Error compareMaps(int lookupCnt = 1'000'000) {
auto const seed = steadyNowMs();
uint64_t hashTime{};
uint64_t smallTime{};
@@ -127,7 +126,7 @@ OX_CLANG_NOWARN_BEGIN(-Wunsafe-buffer-usage)
OX_CLANG_NOWARN_END
ox::heapmgr::free(a1);
ox::heapmgr::free(a2);
return ox::Error{};
return ox::Error(0);
}
},
{
@@ -136,13 +135,13 @@ OX_CLANG_NOWARN_END
ox::Array<char, 10> buff;
ox::CharBuffWriter bw(buff);
oxAssert(ox::writeItoa(5, bw), "ox::writeItoa returned Error");
ox::expect(ox::StringView(buff.data()), ox::StringView("5"));
oxExpect(ox::StringView(buff.data()), ox::StringView("5"));
OX_RETURN_ERROR(bw.seekp(0));
oxAssert(ox::writeItoa(50, bw), "ox::writeItoa returned Error");
ox::expect(ox::StringView(buff.data()), ox::StringView("50"));
oxExpect(ox::StringView(buff.data()), ox::StringView("50"));
OX_RETURN_ERROR(bw.seekp(0));
oxAssert(ox::writeItoa(500, bw), "ox::writeItoa returned Error");
ox::expect(ox::StringView(buff.data()), ox::StringView("500"));
oxExpect(ox::StringView(buff.data()), ox::StringView("500"));
return ox::Error{};
}
},
@@ -184,8 +183,8 @@ OX_CLANG_NOWARN_END
s = "asdf";
oxAssert(s == "asdf", "String assign broken");
oxAssert(s != "aoeu", "String assign broken");
oxAssert(s.size() == 4, "String assign broken");
return ox::Error{};
oxAssert(s.len() == 4, "String assign broken");
return ox::Error(0);
}
},
{
@@ -215,11 +214,11 @@ OX_CLANG_NOWARN_END
oxAssert(ox::StringView("Write") != ox::String(""), "String / StringView comparison broken");
oxAssert(ox::String("Write") != ox::StringView(""), "String / StringView comparison broken");
oxAssert(ox::String("Write") == ox::StringView("Write"), "String / StringView comparison broken");
ox::expect(ox::String("asdf").substr(1, 3), "sd");
oxExpect(ox::String("asdf").substr(1, 3), "sd");
oxAssert(
ox::String(ox::StringView("Write")) == ox::StringView("Write"),
"String / StringView comparison broken");
return ox::Error{};
return ox::Error(0);
}
},
{
@@ -228,16 +227,16 @@ OX_CLANG_NOWARN_END
ox::Vector<int> v;
oxAssert(v.size() == 0, "Initial Vector size not 0");
oxAssert(v.empty(), "Vector::empty() is broken");
auto insertTest = [&v](int const val, std::size_t const size) {
auto insertTest = [&v](int val, std::size_t size) {
v.push_back(val);
OX_RETURN_ERROR(ox::Error(v.size() != size, "Vector size incorrect"));
OX_RETURN_ERROR(ox::Error(v[v.size() - 1] != val, "Vector value wrong"));
return ox::Error{};
return ox::Error(0);
};
oxAssert(insertTest(42, 1), "Vector insertion failed");
oxAssert(insertTest(100, 2), "Vector insertion failed");
oxAssert(insertTest(102, 3), "Vector insertion failed");
return ox::Error{};
return ox::Error(0);
}
},
{
@@ -250,9 +249,9 @@ OX_CLANG_NOWARN_END
v.emplace_back("aoeu");
auto const origData = v.data();
v.shrink_to_fit();
ox::expect(v[0], "asdf");
ox::expect(v[1], "aoeu");
ox::expect(v.capacity(), 2u);
oxExpect(v[0], "asdf");
oxExpect(v[1], "aoeu");
oxExpect(v.capacity(), 2u);
oxAssert(origData != v.data(), "shrink_to_fit did not create a new allocation");
}
{
@@ -262,9 +261,9 @@ OX_CLANG_NOWARN_END
v.emplace_back("aoeu");
auto const origData = v.data();
v.shrink_to_fit();
ox::expect(v[0], "asdf");
ox::expect(v[1], "aoeu");
ox::expect(v.capacity(), 2u);
oxExpect(v[0], "asdf");
oxExpect(v[1], "aoeu");
oxExpect(v.capacity(), 2u);
oxAssert(origData == v.data(), "shrink_to_fit inappropriately created a new allocation");
}
return ox::Error{};
@@ -274,13 +273,13 @@ OX_CLANG_NOWARN_END
"findIdx",
[] {
ox::Vector<ox::IString<8>> const v {"zero", "one", "two", "three", "four"};
ox::expect(ox::findIdx(v.begin(), v.end(), "zero").or_value(5), 0u);
ox::expect(ox::findIdx(v.begin(), v.end(), "one").or_value(5), 1u);
ox::expect(ox::findIdx(v.begin(), v.end(), "two").or_value(5), 2u);
ox::expect(ox::findIdx(v.begin(), v.end(), "three").or_value(5), 3u);
ox::expect(ox::findIdx(v.begin(), v.end(), "four").or_value(5), 4u);
ox::expect(ox::findIdx(v.begin(), v.end(), "five").or_value(5), 5u);
ox::expect(ox::findIdx(v.begin(), v.end(), "six").or_value(6), 6u);
oxExpect(ox::findIdx(v.begin(), v.end(), "zero").or_value(5), 0u);
oxExpect(ox::findIdx(v.begin(), v.end(), "one").or_value(5), 1u);
oxExpect(ox::findIdx(v.begin(), v.end(), "two").or_value(5), 2u);
oxExpect(ox::findIdx(v.begin(), v.end(), "three").or_value(5), 3u);
oxExpect(ox::findIdx(v.begin(), v.end(), "four").or_value(5), 4u);
oxExpect(ox::findIdx(v.begin(), v.end(), "five").or_value(5), 5u);
oxExpect(ox::findIdx(v.begin(), v.end(), "six").or_value(6), 6u);
return ox::Error{};
}
},
@@ -289,19 +288,19 @@ OX_CLANG_NOWARN_END
[] {
ox::SmallMap<ox::String, ox::String> map;
map["asdf"] = "aoeu";
ox::expect(map["asdf"], "aoeu");
ox::expect(map.size(), 1u);
ox::expect(map["aoeu"], "");
ox::expect(map.size(), 2u);
oxExpect(map["asdf"], "aoeu");
oxExpect(map.size(), 1u);
oxExpect(map["aoeu"], "");
oxExpect(map.size(), 2u);
ox::SmallMap<ox::String, ox::String> cmap;
cmap["asdf"] = "aoeu";
auto constexpr constTest = [](ox::SmallMap<ox::String, ox::String> const &map) {
auto constexpr constTest = [](ox::SmallMap<ox::String, ox::String> const&map) {
OX_REQUIRE(asdf, map.at("asdf"));
ox::expect(*asdf, "aoeu");
ox::expect(map.size(), 1u);
oxExpect(*asdf, "aoeu");
oxExpect(map.size(), 1u);
auto const aoeu = map.at("aoeu");
ox::expect(aoeu.ok(), false);
ox::expect(map.size(), 1u);
oxExpect(aoeu.ok(), false);
oxExpect(map.size(), 1u);
return ox::Error{};
};
return constTest(cmap);
@@ -320,7 +319,7 @@ OX_CLANG_NOWARN_END
ii[5] = 100;
oxAssert(ii[4] == 42, "4 != 42");
oxAssert(ii[5] == 100, "5 != 100");
return ox::Error{};
return ox::Error(0);
}
},
{
@@ -335,17 +334,18 @@ OX_CLANG_NOWARN_END
oxAssert(!si.contains("asdf"), "wrongly contains asdf");
oxAssert(si.contains("aoeu"), "does not contains aoeu");
oxAssert(!si.at("asdf").ok(), "asdf != 0");
ox::expect(si["asdf"], 0);
oxExpect(si["asdf"], 0);
oxAssert(si["aoeu"] == 100, "aoeu != 100");
auto si2 = si;
ox::expect(si2["asdf"], 0);
oxDebugf("{}", si2["asdf"]);
oxExpect(si2["asdf"], 0);
oxAssert(si2["aoeu"] == 100, "aoeu != 100");
ox::HashMap<int, int> ii;
ii[4] = 42;
ii[5] = 100;
oxAssert(ii[4] == 42, "4 != 42");
oxAssert(ii[5] == 100, "5 != 100");
return ox::Error{};
return ox::Error(0);
}
},
{
@@ -378,15 +378,15 @@ OX_CLANG_NOWARN_END
static_cast<int>(actual[1]),
static_cast<int>(actual[2]),
static_cast<int>(actual[3]));
ox::expect(ox::serialize<int32_t>(4).unwrap(), BA({4, 0, 0, 0}));
ox::expect(ox::serialize<int32_t>(256).unwrap(), BA({0, 1, 0, 0}));
ox::expect(ox::serialize<int32_t>(257).unwrap(), BA({1, 1, 0, 0}));
ox::expect(ox::serialize<uint32_t>(4).unwrap(), BA({4, 0, 0, 0}));
ox::expect(ox::serialize<uint32_t>(256).unwrap(), BA({0, 1, 0, 0}));
ox::expect(ox::serialize<uint32_t>(257).unwrap(), BA({1, 1, 0, 0}));
oxExpect(ox::serialize<int32_t>(4).unwrap(), BA({4, 0, 0, 0}));
oxExpect(ox::serialize<int32_t>(256).unwrap(), BA({0, 1, 0, 0}));
oxExpect(ox::serialize<int32_t>(257).unwrap(), BA({1, 1, 0, 0}));
oxExpect(ox::serialize<uint32_t>(4).unwrap(), BA({4, 0, 0, 0}));
oxExpect(ox::serialize<uint32_t>(256).unwrap(), BA({0, 1, 0, 0}));
oxExpect(ox::serialize<uint32_t>(257).unwrap(), BA({1, 1, 0, 0}));
constexpr auto neg1 = static_cast<char>(-1); // ARM64 Linux assumes -1 literals are ints...
ox::expect(ox::serialize<uint32_t>(0xffff'ffff).unwrap(), BA({neg1, neg1, neg1, neg1}));
return ox::Error{};
oxExpect(ox::serialize<uint32_t>(0xffff'ffff).unwrap(), BA({neg1, neg1, neg1, neg1}));
return ox::Error(0);
}
},
{
@@ -395,58 +395,58 @@ OX_CLANG_NOWARN_END
ox::Buffer b;
ox::BufferWriter w(&b);
oxAssert(w.write("asdf", 4), "write failed");
ox::expect(b.size(), 4u);
oxExpect(b.size(), 4u);
oxAssert(w.write("aoeu", 4), "write failed");
ox::expect(b.size(), 8u);
ox::expect(ox::StringView(b.data(), b.size()), "asdfaoeu");
oxExpect(b.size(), 8u);
oxExpect(ox::StringView(b.data(), b.size()), "asdfaoeu");
ox::StringView constexpr qwerty = "qwerty";
oxAssert(w.write(qwerty.data(), qwerty.bytes()), "write failed");
ox::expect(b.size(), 14u);
ox::expect(ox::StringView(b.data(), b.size()), "asdfaoeuqwerty");
return ox::Error{};
oxExpect(b.size(), 14u);
oxExpect(ox::StringView(b.data(), b.size()), "asdfaoeuqwerty");
return ox::Error(0);
}
},
{
"FromHex",
[] {
ox::expect(ox::detail::fromHex("01").unwrap(), 0x01);
ox::expect(ox::detail::fromHex("02").unwrap(), 0x02);
ox::expect(ox::detail::fromHex("03").unwrap(), 0x03);
ox::expect(ox::detail::fromHex("04").unwrap(), 0x04);
ox::expect(ox::detail::fromHex("05").unwrap(), 0x05);
ox::expect(ox::detail::fromHex("06").unwrap(), 0x06);
ox::expect(ox::detail::fromHex("07").unwrap(), 0x07);
ox::expect(ox::detail::fromHex("08").unwrap(), 0x08);
ox::expect(ox::detail::fromHex("0d").unwrap(), 0x0d);
ox::expect(ox::detail::fromHex("0e").unwrap(), 0x0e);
ox::expect(ox::detail::fromHex("0f").unwrap(), 0x0f);
ox::expect(ox::detail::fromHex("0F").unwrap(), 0x0f);
ox::expect(ox::detail::fromHex("fF").unwrap(), 0xff);
ox::expect(ox::detail::fromHex("ff").unwrap(), 0xff);
ox::expect(ox::detail::fromHex("a0").unwrap(), 0xa0);
ox::expect(ox::detail::fromHex("93").unwrap(), 0x93);
ox::expect(ox::detail::fromHex("40").unwrap(), 0x40);
return ox::Error{};
oxExpect(ox::detail::fromHex("01").unwrap(), 0x01);
oxExpect(ox::detail::fromHex("02").unwrap(), 0x02);
oxExpect(ox::detail::fromHex("03").unwrap(), 0x03);
oxExpect(ox::detail::fromHex("04").unwrap(), 0x04);
oxExpect(ox::detail::fromHex("05").unwrap(), 0x05);
oxExpect(ox::detail::fromHex("06").unwrap(), 0x06);
oxExpect(ox::detail::fromHex("07").unwrap(), 0x07);
oxExpect(ox::detail::fromHex("08").unwrap(), 0x08);
oxExpect(ox::detail::fromHex("0d").unwrap(), 0x0d);
oxExpect(ox::detail::fromHex("0e").unwrap(), 0x0e);
oxExpect(ox::detail::fromHex("0f").unwrap(), 0x0f);
oxExpect(ox::detail::fromHex("0F").unwrap(), 0x0f);
oxExpect(ox::detail::fromHex("fF").unwrap(), 0xff);
oxExpect(ox::detail::fromHex("ff").unwrap(), 0xff);
oxExpect(ox::detail::fromHex("a0").unwrap(), 0xa0);
oxExpect(ox::detail::fromHex("93").unwrap(), 0x93);
oxExpect(ox::detail::fromHex("40").unwrap(), 0x40);
return ox::Error(0);
}
},
{
"ToHex",
[] {
ox::expect(ox::detail::toHex(0x01), "01");
ox::expect(ox::detail::toHex(0x02), "02");
ox::expect(ox::detail::toHex(0x03), "03");
ox::expect(ox::detail::toHex(0x04), "04");
ox::expect(ox::detail::toHex(0x05), "05");
ox::expect(ox::detail::toHex(0x06), "06");
ox::expect(ox::detail::toHex(0x07), "07");
ox::expect(ox::detail::toHex(0x08), "08");
ox::expect(ox::detail::toHex(0x0d), "0d");
ox::expect(ox::detail::toHex(0x0e), "0e");
ox::expect(ox::detail::toHex(0x0f), "0f");
ox::expect(ox::detail::toHex(0x93), "93");
ox::expect(ox::detail::toHex(0x40), "40");
ox::expect(ox::detail::toHex(0xf0), "f0");
return ox::Error{};
oxExpect(ox::detail::toHex(0x01), "01");
oxExpect(ox::detail::toHex(0x02), "02");
oxExpect(ox::detail::toHex(0x03), "03");
oxExpect(ox::detail::toHex(0x04), "04");
oxExpect(ox::detail::toHex(0x05), "05");
oxExpect(ox::detail::toHex(0x06), "06");
oxExpect(ox::detail::toHex(0x07), "07");
oxExpect(ox::detail::toHex(0x08), "08");
oxExpect(ox::detail::toHex(0x0d), "0d");
oxExpect(ox::detail::toHex(0x0e), "0e");
oxExpect(ox::detail::toHex(0x0f), "0f");
oxExpect(ox::detail::toHex(0x93), "93");
oxExpect(ox::detail::toHex(0x40), "40");
oxExpect(ox::detail::toHex(0xf0), "f0");
return ox::Error(0);
}
},
{
@@ -454,20 +454,20 @@ OX_CLANG_NOWARN_END
[] {
constexpr ox::StringView uuidStr = "8d814442-f46e-4cc3-8edc-ca3c01cc86db";
OX_REQUIRE(uuid, ox::UUID::fromString(uuidStr));
ox::expect(uuid.toString(), uuidStr);
ox::expect(ox::UUID{}.isNull(), true);
ox::expect(ox::UUID::fromString(uuidStr).value.isNull(), false);
return ox::Error{};
oxExpect(uuid.toString(), uuidStr);
oxExpect(ox::UUID{}.isNull(), true);
oxExpect(ox::UUID::fromString(uuidStr).value.isNull(), false);
return ox::Error(0);
}
},
{
"UUID::generate",
[] {
ox::UUID::seedGenerator({1234, 4321});
ox::expect(ox::UUID::generate().unwrap().toString(), "5c3f4b5e-ccbf-4727-7f03-3053dedc8827");
ox::expect(ox::UUID::generate().unwrap().toString(), "90d0274a-2774-4afa-88e5-0c1d60ba3abf");
ox::expect(ox::UUID::generate().unwrap().toString(), "7df77910-841c-48ba-ea2e-44521ac47c2e");
return ox::Error{};
oxExpect(ox::UUID::generate().unwrap().toString(), "5c3f4b5e-ccbf-4727-7f03-3053dedc8827");
oxExpect(ox::UUID::generate().unwrap().toString(), "90d0274a-2774-4afa-88e5-0c1d60ba3abf");
oxExpect(ox::UUID::generate().unwrap().toString(), "7df77910-841c-48ba-ea2e-44521ac47c2e");
return ox::Error(0);
}
},
{
@@ -475,100 +475,71 @@ OX_CLANG_NOWARN_END
[] {
ox::StringView sv = "ab.cd";
auto list = ox::split(sv, ".");
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = "ab.cd.fg";
list = ox::split(sv, ".");
ox::expect(list.size(), 3u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
ox::expect(list[2], "fg");
oxExpect(list.size(), 3u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
oxExpect(list[2], "fg");
sv = "ab.cd.";
list = ox::split(sv, ".");
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = ".ab.cd.";
list = ox::split(sv, ".");
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = ".";
list = ox::split(sv, ".");
ox::expect(list.size(), 0u);
oxExpect(list.size(), 0u);
sv = ".";
list = ox::split(sv, ".");
ox::expect(list.size(), 0u);
oxExpect(list.size(), 0u);
sv = "";
list = ox::split(sv, ".");
ox::expect(list.size(), 0u);
oxExpect(list.size(), 0u);
// split by single char
sv = "ab.cd";
list = ox::split(sv, '.');
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = "ab.cd.fg";
list = ox::split(sv, '.');
ox::expect(list.size(), 3u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
ox::expect(list[2], "fg");
oxExpect(list.size(), 3u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
oxExpect(list[2], "fg");
sv = "ab.cd.";
list = ox::split(sv, '.');
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = ".ab.cd.";
list = ox::split(sv, '.');
ox::expect(list.size(), 2u);
ox::expect(list[0], "ab");
ox::expect(list[1], "cd");
oxExpect(list.size(), 2u);
oxExpect(list[0], "ab");
oxExpect(list[1], "cd");
sv = ".";
list = ox::split(sv, '.');
ox::expect(list.size(), 0u);
oxExpect(list.size(), 0u);
sv = ".";
list = ox::split(sv, '.');
ox::expect(list.size(), 0u);
oxExpect(list.size(), 0u);
sv = "";
list = ox::split(sv, '.');
ox::expect(list.size(), 0u);
return ox::Error{};
}
},
{
"intToStr",
[] {
ox::expect(ox::intToStr<uint8_t>(255u), "255");
ox::expect(ox::intToStr<int8_t>(127), "127");
ox::expect(ox::intToStr<int8_t>(-128), "-128");
ox::expect(ox::intToStr<uint16_t>(65535u), "65535");
ox::expect(ox::intToStr<int16_t>(32767), "32767");
ox::expect(ox::intToStr<int16_t>(-32768), "-32768");
ox::expect(ox::intToStr<uint32_t>(4294967295u), "4294967295");
ox::expect(ox::intToStr<int32_t>(2147483647), "2147483647");
ox::expect(ox::intToStr<int32_t>(-2147483648), "-2147483648");
ox::expect(ox::intToStr<uint64_t>(18446744073709551615u), "18446744073709551615");
ox::expect(ox::intToStr<int64_t>(9223372036854775807), "9223372036854775807");
ox::expect(ox::intToStr<int64_t>(-9223372036854775807), "-9223372036854775807");
ox::expect(ox::intToStr<uint64_t>(0), "0");
ox::expect(ox::intToStr<uint64_t>(5), "5");
ox::expect(ox::intToStr(0), "0");
ox::expect(ox::intToStr(5), "5");
ox::expect(ox::intToStr(5000), "5000");
ox::expect(ox::intToStr(50000), "50000");
ox::expect(ox::intToStr(500000), "500000");
ox::expect(ox::intToStr(-5), "-5");
ox::expect(ox::intToStr(-5000), "-5000");
ox::expect(ox::intToStr(-50000), "-50000");
ox::expect(ox::intToStr(-500000), "-500000");
return ox::Error{};
oxExpect(list.size(), 0u);
return ox::Error(0);
}
},
};
int main(int const argc, const char **argv) {
int main(int argc, const char **argv) {
if (argc < 2) {
oxError("Must specify test to run");
return -1;

14
deps/ox/src/ox/std/trace.hpp vendored
View File

@@ -166,7 +166,7 @@ class OutStream {
constexpr OutStream &operator<<(Integer_c auto v) noexcept;
constexpr OutStream &operator<<(char v) noexcept {
if (m_msg.msg.size()) {
if (m_msg.msg.len()) {
m_msg.msg += m_delimiter;
}
m_msg.msg += v;
@@ -174,7 +174,7 @@ class OutStream {
}
constexpr OutStream &operator<<(StringViewCR v) noexcept {
if (m_msg.msg.size()) {
if (m_msg.msg.len()) {
m_msg.msg += m_delimiter;
}
m_msg.msg += v;
@@ -209,7 +209,7 @@ class OutStream {
private:
constexpr OutStream &appendSignedInt(int64_t v) noexcept {
if (m_msg.msg.size()) {
if (m_msg.msg.len()) {
m_msg.msg += m_delimiter;
}
m_msg.msg += static_cast<int64_t>(v);
@@ -217,7 +217,7 @@ class OutStream {
}
constexpr OutStream &appendUnsignedInt(uint64_t v) noexcept {
if (m_msg.msg.size()) {
if (m_msg.msg.len()) {
m_msg.msg += m_delimiter;
}
m_msg.msg += static_cast<int64_t>(v);
@@ -227,7 +227,7 @@ class OutStream {
};
constexpr OutStream &OutStream::operator<<(Integer_c auto v) noexcept {
if (m_msg.msg.size()) {
if (m_msg.msg.len()) {
m_msg.msg += m_delimiter;
}
m_msg.msg += v;
@@ -268,7 +268,7 @@ using TraceStream = NullStream;
inline void logError(const char *file, int line, const char *fmt, const Error &err) noexcept {
if (err) {
TraceStream trc(file, line, "ox.error");
TraceStream trc(file, line, "ox::error");
if (err.src.file_name() != nullptr) {
trc << "Error: (" << err.src.file_name() << ":" << err.src.line() << "):";
} else {
@@ -280,7 +280,7 @@ inline void logError(const char *file, int line, const char *fmt, const Error &e
inline void logError(const char *file, int line, const Error &err) noexcept {
if (err) {
TraceStream trc(file, line, "ox.error");
TraceStream trc(file, line, "ox::error");
trc << "Error:" << err;
if (err.src.file_name() != nullptr) {
trc << "(" << err.src.file_name() << ":" << err.src.line() << ")";

19
deps/ox/src/ox/std/types.hpp vendored
View File

@@ -63,6 +63,25 @@ namespace ox {
using CString = char const*;
/**
* Aliases type T in size and alignment to allow allocating space for a T
* without running the constructor.
*/
template<typename T, std::size_t sz = sizeof(T)>
struct alignas(alignof(T)) AllocAlias {
char buff[sz];
constexpr AllocAlias() noexcept = default;
[[nodiscard]]
auto data() noexcept {
return reinterpret_cast<T*>(this);
}
[[nodiscard]]
auto data() const noexcept {
return reinterpret_cast<const T*>(this);
}
};
template<std::size_t sz>
struct SignedType {
};

17
deps/ox/src/ox/std/typetraits.hpp vendored
View File

@@ -180,6 +180,20 @@ struct is_same<T, T>: true_type {};
template<typename T, typename U>
constexpr auto is_same_v = is_same<T, U>::value;
// enable_if ///////////////////////////////////////////////////////////////////
template<bool B, class T = void>
struct enable_if {
};
template<class T>
struct enable_if<true, T> {
using type = T;
};
template<bool B, typename T>
using enable_if_t = typename enable_if<B, T>::type;
template<typename T>
struct is_pointer {
static constexpr bool value = false;
@@ -223,9 +237,6 @@ struct remove_pointer<T* const volatile> {
using type = T;
};
template<typename T>
using remove_pointer_t = typename remove_pointer<T>::type;
template<typename T>
struct remove_reference {

10
deps/ox/src/ox/std/uuid.hpp vendored
View File

@@ -58,7 +58,7 @@ constexpr ox::Result<uint8_t> fromHex(ox::StringViewCR v) noexcept {
if (!detail::isHexChar(v[0]) || !detail::isHexChar(v[1])) {
return ox::Error(1, "Invalid UUID");
}
if (v.size() != 2) {
if (v.len() != 2) {
return ox::Error(2);
}
uint8_t out = 0;
@@ -133,18 +133,18 @@ class UUID {
}
static constexpr ox::Result<ox::UUID> fromString(ox::StringViewCR s) noexcept {
if (s.size() < 36) {
if (s.len() < 36) {
return ox::Error(1, "Insufficient data to contain a complete UUID");
}
UUID out;
auto valueI = 0u;
for (size_t i = 0; i < s.size();) {
for (size_t i = 0; i < s.len();) {
if (s[i] == '-') {
++i;
continue;
}
const auto seg = substr(s, i, i + 2);
if (seg.size() != 2) {
if (seg.len() != 2) {
return ox::Error(1, "Invalid UUID");
}
OX_REQUIRE(val, detail::fromHex(seg));
@@ -174,7 +174,7 @@ class UUID {
for (auto i = 0u; i < cnt; ++i) {
const auto v = value[valueI];
const auto h = detail::toHex(v);
std::ignore = writer.write(h.c_str(), h.size());
std::ignore = writer.write(h.c_str(), h.len());
++valueI;
}
};

91
deps/ox/src/ox/std/vector.hpp vendored
View File

@@ -34,10 +34,10 @@ struct VectorAllocator {
ox::Array<AllocAlias<T>, Size> m_data = {};
protected:
constexpr VectorAllocator() noexcept = default;
constexpr VectorAllocator(VectorAllocator const&) noexcept = default;
constexpr VectorAllocator(const VectorAllocator&) noexcept = default;
constexpr VectorAllocator(VectorAllocator&&) noexcept = default;
constexpr void allocate(T **items, std::size_t const cap) noexcept {
constexpr void allocate(T **items, std::size_t cap) noexcept {
// small vector optimization cannot be done it constexpr, but it doesn't really matter in constexpr
if (std::is_constant_evaluated() || cap > Size) {
*items = Allocator{}.allocate(cap);
@@ -49,31 +49,45 @@ struct VectorAllocator {
constexpr void moveConstructItemsFrom(
T **items,
VectorAllocator *src,
std::size_t const count,
std::size_t const cap) noexcept {
const std::size_t count,
const std::size_t cap) noexcept {
// this totally idiotic redundant check (&& count <= Size) is required to address a bug in devkitARM,
// try removing it later
if (!std::is_constant_evaluated()) {
if (cap <= m_data.size() && count <= m_data.size()) {
for (auto i = 0u; i < count; ++i) {
auto const srcItem = std::launder(reinterpret_cast<T*>(&src->m_data[i]));
new (&m_data[i]) T(std::move(*srcItem));
}
if (count) {
*items = std::launder(reinterpret_cast<T*>(m_data.data()));
} else {
*items = reinterpret_cast<T*>(m_data.data());
const auto dstItem = reinterpret_cast<T *>(&m_data[i]);
const auto srcItem = reinterpret_cast<T *>(&src->m_data[i]);
std::construct_at<T>(dstItem, std::move(*srcItem));
}
*items = reinterpret_cast<T*>(m_data.data());
}
}
}
constexpr void deallocate(T *const items, std::size_t const cap) noexcept {
constexpr void moveItemsFrom(
T **items,
VectorAllocator *src,
const std::size_t count,
const std::size_t cap) noexcept {
// this totally idiotic redundant check (&& count <= Size) is required to address a bug in devkitARM,
// try removing it later
if (!std::is_constant_evaluated()) {
if (cap <= m_data.size() && count <= m_data.size()) {
for (std::size_t i = 0; i < count; ++i) {
const auto dstItem = reinterpret_cast<T *>(&m_data[i]);
const auto srcItem = reinterpret_cast<T *>(&src->m_data[i]);
*dstItem = std::move(*srcItem);
}
*items = reinterpret_cast<T*>(m_data.data());
}
}
}
constexpr void deallocate(T *items, std::size_t cap) noexcept {
// small vector optimization cannot be done it constexpr, but it doesn't really matter in constexpr
if (std::is_constant_evaluated()) {
if (items) {
Allocator{}.deallocate(items, cap);
}
Allocator{}.deallocate(items, cap);
} else {
if (items && static_cast<void*>(items) != static_cast<void*>(m_data.data())) {
Allocator{}.deallocate(items, cap);
@@ -87,10 +101,10 @@ template<typename T, typename Allocator>
struct VectorAllocator<T, Allocator, 0> {
protected:
constexpr VectorAllocator() noexcept = default;
constexpr VectorAllocator(VectorAllocator const&) noexcept = default;
constexpr VectorAllocator(const VectorAllocator&) noexcept = default;
constexpr VectorAllocator(VectorAllocator&&) noexcept = default;
constexpr void allocate(T **items, std::size_t const cap) noexcept {
constexpr void allocate(T **items, std::size_t cap) noexcept {
*items = Allocator{}.allocate(cap);
}
@@ -98,15 +112,15 @@ struct VectorAllocator<T, Allocator, 0> {
constexpr void moveConstructItemsFrom(
T**,
VectorAllocator*,
std::size_t const,
std::size_t const) noexcept {
const std::size_t,
const std::size_t) noexcept {
}
[[maybe_unused]]
constexpr void moveItemsFrom(T**, VectorAllocator*, std::size_t const, std::size_t const) noexcept {
constexpr void moveItemsFrom(T**, VectorAllocator*, const std::size_t, const std::size_t) noexcept {
}
constexpr void deallocate(T *const items, std::size_t const cap) noexcept {
constexpr void deallocate(T *items, std::size_t cap) noexcept {
if (items) {
Allocator{}.deallocate(items, cap);
}
@@ -247,8 +261,6 @@ class Vector: detail::VectorAllocator<T, Allocator, SmallVectorSize> {
constexpr void resize(std::size_t size) noexcept(useNoexcept);
constexpr void reserveResize(std::size_t size) noexcept(useNoexcept);
[[nodiscard]]
constexpr T *data() noexcept {
return m_items;
@@ -263,7 +275,7 @@ class Vector: detail::VectorAllocator<T, Allocator, SmallVectorSize> {
constexpr bool contains(MaybeView_t<T> const&) const noexcept;
constexpr iterator<T&, T*, false> insert(
std::size_t pos, std::size_t cnt, T const &val) noexcept(useNoexcept);
std::size_t pos, std::size_t cnt, T const&val) noexcept(useNoexcept);
constexpr iterator<T&, T*, false> insert(std::size_t pos, T val) noexcept(useNoexcept);
@@ -273,9 +285,7 @@ class Vector: detail::VectorAllocator<T, Allocator, SmallVectorSize> {
template<typename... Args>
constexpr T &emplace_back(Args&&... args) noexcept(useNoexcept);
constexpr void push_back(T const &item) noexcept(useNoexcept);
constexpr void push_back(T &&item) noexcept(useNoexcept);
constexpr void push_back(T item) noexcept(useNoexcept);
constexpr void pop_back() noexcept(useNoexcept);
@@ -409,7 +419,7 @@ constexpr Vector<T, SmallVectorSize, Allocator> &Vector<T, SmallVectorSize, Allo
m_size = other.m_size;
m_cap = other.m_cap;
m_items = other.m_items;
this->moveConstructItemsFrom(&m_items, &other, m_size, m_cap);
this->moveItemsFrom(&m_items, &other, m_size, m_cap);
other.m_size = 0;
other.m_cap = 0;
other.m_items = nullptr;
@@ -419,13 +429,13 @@ constexpr Vector<T, SmallVectorSize, Allocator> &Vector<T, SmallVectorSize, Allo
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr T &Vector<T, SmallVectorSize, Allocator>::operator[](std::size_t i) noexcept {
boundsCheck(i, size(), "Vector access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Vector access overflow");
return m_items[i];
}
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr const T &Vector<T, SmallVectorSize, Allocator>::operator[](std::size_t i) const noexcept {
boundsCheck(i, size(), "Vector access overflow");
boundsCheck(__FILE__, __LINE__, i, size(), "Vector access overflow");
return m_items[i];
}
@@ -520,13 +530,7 @@ constexpr void Vector<T, SmallVectorSize, Allocator>::resize(std::size_t size) n
}
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr void Vector<T, SmallVectorSize, Allocator>::reserveResize(std::size_t const size) noexcept(useNoexcept) {
reserve(size);
resize(size);
}
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr bool Vector<T, SmallVectorSize, Allocator>::contains(MaybeView_t<T> const &v) const noexcept {
constexpr bool Vector<T, SmallVectorSize, Allocator>::contains(MaybeView_t<T> const&v) const noexcept {
for (std::size_t i = 0; i < m_size; ++i) {
if (m_items[i] == v) {
return true;
@@ -538,7 +542,7 @@ constexpr bool Vector<T, SmallVectorSize, Allocator>::contains(MaybeView_t<T> co
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr typename Vector<T, SmallVectorSize, Allocator>::template iterator<T&, T*, false>
Vector<T, SmallVectorSize, Allocator>::insert(
std::size_t pos, std::size_t cnt, T const &val) noexcept(useNoexcept) {
std::size_t pos, std::size_t cnt, T const&val) noexcept(useNoexcept) {
if (m_size + cnt > m_cap) {
reserveInsert(m_cap ? m_size + cnt : initialCap, pos, cnt);
}
@@ -611,16 +615,7 @@ constexpr T &Vector<T, SmallVectorSize, Allocator>::emplace_back(Args&&... args)
}
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr void Vector<T, SmallVectorSize, Allocator>::push_back(T const &item) noexcept(useNoexcept) {
if (m_size == m_cap) {
reserve(m_cap ? m_cap * 2 : initialCap);
}
std::construct_at(&m_items[m_size], item);
++m_size;
}
template<typename T, std::size_t SmallVectorSize, typename Allocator>
constexpr void Vector<T, SmallVectorSize, Allocator>::push_back(T &&item) noexcept(useNoexcept) {
constexpr void Vector<T, SmallVectorSize, Allocator>::push_back(T item) noexcept(useNoexcept) {
if (m_size == m_cap) {
reserve(m_cap ? m_cap * 2 : initialCap);
}

112
deps/teagba/include/teagba/addresses.hpp vendored
View File

@@ -5,117 +5,103 @@
#pragma once
#include <ox/std/array.hpp>
#include <ox/std/units.hpp>
#include <ox/std/types.hpp>
/////////////////////////////////////////////////////////////////
// Interrupt Handler
using InterruptHandler = void(*)();
#define REG_ISR (*reinterpret_cast<InterruptHandler*>(0x0300'7FFC))
#define REG_IE (*reinterpret_cast<volatile uint16_t*>(0x0400'0200))
#define REG_IF (*reinterpret_cast<volatile uint16_t*>(0x0400'0202))
#define REG_IME (*reinterpret_cast<volatile uint16_t*>(0x0400'0208))
using interrupt_handler = void (*)();
#define REG_ISR *reinterpret_cast<interrupt_handler*>(0x0300'7FFC)
#define REG_IE *reinterpret_cast<volatile uint16_t*>(0x0400'0200)
#define REG_IF *reinterpret_cast<volatile uint16_t*>(0x0400'0202)
#define REG_IME *reinterpret_cast<volatile uint16_t*>(0x0400'0208)
/////////////////////////////////////////////////////////////////
// Display Registers
#define REG_DISPCTL (*reinterpret_cast<volatile uint32_t*>(0x0400'0000))
#define REG_DISPSTAT (*reinterpret_cast<volatile uint32_t*>(0x0400'0004))
#define REG_VCOUNT (*reinterpret_cast<volatile uint32_t*>(0x0400'0006))
#define REG_DISPCTL *reinterpret_cast<volatile uint32_t*>(0x0400'0000)
#define REG_DISPSTAT *reinterpret_cast<volatile uint32_t*>(0x0400'0004)
#define REG_VCOUNT *reinterpret_cast<volatile uint32_t*>(0x0400'0006)
/////////////////////////////////////////////////////////////////
// Timers
#define REG_TIMER0 (*reinterpret_cast<volatile uint16_t*>(0x0400'0100))
#define REG_TIMER0CTL (*reinterpret_cast<volatile uint16_t*>(0x0400'0102))
#define REG_TIMER0 *reinterpret_cast<volatile uint16_t*>(0x0400'0100)
#define REG_TIMER0CTL *reinterpret_cast<volatile uint16_t*>(0x0400'0102)
#define REG_TIMER1 (*reinterpret_cast<volatile uint16_t*>(0x0400'0104))
#define REG_TIMER1CTL (*reinterpret_cast<volatile uint16_t*>(0x0400'0106))
#define REG_TIMER1 *reinterpret_cast<volatile uint16_t*>(0x0400'0104)
#define REG_TIMER1CTL *reinterpret_cast<volatile uint16_t*>(0x0400'0106)
#define REG_TIMER2 (*reinterpret_cast<volatile uint16_t*>(0x0400'0108))
#define REG_TIMER2CTL (*reinterpret_cast<volatile uint16_t*>(0x0400'010a))
#define REG_TIMER2 *reinterpret_cast<volatile uint16_t*>(0x0400'0108)
#define REG_TIMER2CTL *reinterpret_cast<volatile uint16_t*>(0x0400'010a)
#define REG_TIMER3 (*reinterpret_cast<volatile uint16_t*>(0x0400'010c))
#define REG_TIMER3CTL (*reinterpret_cast<volatile uint16_t*>(0x0400'010e))
#define REG_TIMER3 *reinterpret_cast<volatile uint16_t*>(0x0400'010c)
#define REG_TIMER3CTL *reinterpret_cast<volatile uint16_t*>(0x0400'010e)
/////////////////////////////////////////////////////////////////
// background registers
// background control registers
using BgCtl = uint16_t;
#define REG_BG0CTL (*reinterpret_cast<volatile BgCtl*>(0x0400'0008))
#define REG_BG1CTL (*reinterpret_cast<volatile BgCtl*>(0x0400'000a))
#define REG_BG2CTL (*reinterpret_cast<volatile BgCtl*>(0x0400'000c))
#define REG_BG3CTL (*reinterpret_cast<volatile BgCtl*>(0x0400'000e))
#define REG_BG0CTL *reinterpret_cast<volatile BgCtl*>(0x0400'0008)
#define REG_BG1CTL *reinterpret_cast<volatile BgCtl*>(0x0400'000a)
#define REG_BG2CTL *reinterpret_cast<volatile BgCtl*>(0x0400'000c)
#define REG_BG3CTL *reinterpret_cast<volatile BgCtl*>(0x0400'000e)
[[nodiscard]]
inline volatile BgCtl &regBgCtl(uintptr_t const bgIdx) noexcept {
inline volatile BgCtl &regBgCtl(uintptr_t bgIdx) noexcept {
return *reinterpret_cast<volatile BgCtl*>(0x0400'0008 + 2 * bgIdx);
}
// background horizontal scrolling registers
#define REG_BG0HOFS (*reinterpret_cast<volatile int16_t*>(0x0400'0010))
#define REG_BG1HOFS (*reinterpret_cast<volatile int16_t*>(0x0400'0014))
#define REG_BG2HOFS (*reinterpret_cast<volatile int16_t*>(0x0400'0018))
#define REG_BG3HOFS (*reinterpret_cast<volatile int16_t*>(0x0400'001c))
#define REG_BG0HOFS *reinterpret_cast<volatile uint32_t*>(0x0400'0010)
#define REG_BG1HOFS *reinterpret_cast<volatile uint32_t*>(0x0400'0014)
#define REG_BG2HOFS *reinterpret_cast<volatile uint32_t*>(0x0400'0018)
#define REG_BG3HOFS *reinterpret_cast<volatile uint32_t*>(0x0400'001c)
[[nodiscard]]
volatile int16_t &regBgHofs(auto const bgIdx) noexcept {
return *reinterpret_cast<volatile int16_t*>(0x0400'0010 + 4 * bgIdx);
inline volatile uint32_t &regBgHofs(auto bgIdx) noexcept {
return *reinterpret_cast<volatile uint32_t*>(0x0400'0010 + 4 * bgIdx);
}
// background vertical scrolling registers
#define REG_BG0VOFS (*reinterpret_cast<volatile int16_t*>(0x0400'0012))
#define REG_BG1VOFS (*reinterpret_cast<volatile int16_t*>(0x0400'0016))
#define REG_BG2VOFS (*reinterpret_cast<volatile int16_t*>(0x0400'001a))
#define REG_BG3VOFS (*reinterpret_cast<volatile int16_t*>(0x0400'001e))
#define REG_BG0VOFS *reinterpret_cast<volatile uint32_t*>(0x0400'0012)
#define REG_BG1VOFS *reinterpret_cast<volatile uint32_t*>(0x0400'0016)
#define REG_BG2VOFS *reinterpret_cast<volatile uint32_t*>(0x0400'001a)
#define REG_BG3VOFS *reinterpret_cast<volatile uint32_t*>(0x0400'001e)
[[nodiscard]]
volatile int16_t &regBgVofs(auto const bgIdx) noexcept {
return *reinterpret_cast<volatile int16_t*>(0x0400'0012 + 4 * bgIdx);
}
// background scrolling registers
struct OffsetPair {
int16_t x{}, y{};
};
#define REG_BG0OFS (*reinterpret_cast<volatile OffsetPair*>(0x0400'0010))
#define REG_BG1OFS (*reinterpret_cast<volatile OffsetPair*>(0x0400'0014))
#define REG_BG2OFS (*reinterpret_cast<volatile OffsetPair*>(0x0400'0018))
#define REG_BG3OFS (*reinterpret_cast<volatile OffsetPair*>(0x0400'001c))
[[nodiscard]]
volatile OffsetPair &regBgOfs(auto const bgIdx) noexcept {
return *reinterpret_cast<volatile OffsetPair*>(0x0400'0010 + sizeof(OffsetPair) * bgIdx);
inline volatile uint32_t &regBgVofs(auto bgIdx) noexcept {
return *reinterpret_cast<volatile uint32_t*>(0x0400'0012 + 4 * bgIdx);
}
/////////////////////////////////////////////////////////////////
// User Input
#define REG_GAMEPAD (*reinterpret_cast<volatile uint16_t*>(0x0400'0130))
#define REG_GAMEPAD *reinterpret_cast<volatile uint16_t*>(0x0400'0130)
/////////////////////////////////////////////////////////////////
// Memory Addresses
#define MEM_EWRAM (*(reinterpret_cast<ox::Array<uint16_t, 0x0203'FFFF - 0x0200'0000>*>(0x0200'0000)))
#define MEM_EWRAM_BEGIN reinterpret_cast<uint8_t*>(0x0200'0000)
#define MEM_EWRAM_END reinterpret_cast<uint8_t*>(0x0203'FFFF)
#define MEM_IWRAM (*(reinterpret_cast<ox::Array<uint8_t, 0x0300'7FFF - 0x0300'0000>*>(0x0300'0000)))
#define MEM_IWRAM_BEGIN reinterpret_cast<uint8_t*>(0x0300'0000)
#define MEM_IWRAM_END reinterpret_cast<uint8_t*>(0x0300'7FFF)
#define REG_BLNDCTL (*reinterpret_cast<uint16_t*>(0x0400'0050))
#define REG_BLNDCTL *reinterpret_cast<uint16_t*>(0x0400'0050)
using Palette = ox::Array<uint16_t, 128>;
#define MEM_BG_PALETTE (*(reinterpret_cast<::Palette*>(0x0500'0000)))
#define MEM_SPRITE_PALETTE (*(reinterpret_cast<::Palette*>(0x0500'0200)))
#define MEM_BG_PALETTE reinterpret_cast<uint16_t*>(0x0500'0000)
#define MEM_SPRITE_PALETTE reinterpret_cast<uint16_t*>(0x0500'0200)
using BgMapTile = ox::Array<uint16_t, 8192>;
#define MEM_BG_TILES (*(reinterpret_cast<ox::Array<BgMapTile, 4>*>(0x0600'0000)))
#define MEM_BG_MAP (*(reinterpret_cast<ox::Array<BgMapTile, 4>*>(0x0600'e000)))
#define MEM_BG_TILES reinterpret_cast<BgMapTile*>(0x0600'0000)
#define MEM_BG_MAP reinterpret_cast<BgMapTile*>(0x0600'e000)
#define MEM_SPRITE_TILES (*(reinterpret_cast<ox::Array<uint16_t, 32 * ox::units::KB>*>(0x0601'0000)))
#define MEM_OAM (*(reinterpret_cast<ox::Array<uint64_t, 64>*>(0x0700'0000)))
#define MEM_SPRITE_TILES reinterpret_cast<uint16_t*>(0x0601'0000)
#define MEM_OAM reinterpret_cast<uint64_t*>(0x0700'0000)
#define MEM_ROM (*(reinterpret_cast<ox::Array<char, 32 * ox::units::MB>*>(0x0700'0000)))
#define MEM_ROM reinterpret_cast<char*>(0x0800'0000)
#define MEM_SRAM (*(reinterpret_cast<ox::Array<char, 64 * ox::units::KB>*>(0x0e00'0000)))
#define MEM_SRAM reinterpret_cast<char*>(0x0e00'0000)
#define MEM_SRAM_SIZE 65535

4
deps/teagba/include/teagba/gfx.hpp vendored
View File

@@ -37,10 +37,8 @@ struct OX_ALIGN8 GbaSpriteAttrUpdate {
GbaSpriteAttrUpdate &spriteAttr(size_t i) noexcept;
void addSpriteUpdate(GbaSpriteAttrUpdate const &upd) noexcept;
void addSpriteUpdate(const GbaSpriteAttrUpdate &upd) noexcept;
void applySpriteUpdates() noexcept;
void setBgOffset(uint16_t bg, int16_t x, int16_t y) noexcept;
}

4
deps/teagba/src/cstartup.cpp vendored
View File

@@ -26,7 +26,7 @@ extern void (*__preinit_array_end[]) (void);
extern void (*__init_array_start[]) (void);
extern void (*__init_array_end[]) (void);
int main(int argc, char const **argv);
int main(int argc, const char **argv);
extern "C" {
@@ -50,7 +50,7 @@ void __libc_init_array() {
}
int c_start() {
char const *args[2] = {"", "rom.oxfs"};
const char *args[2] = {"", "rom.oxfs"};
ox::heapmgr::initHeap(HEAP_BEGIN, HEAP_END);
mgba::initConsole();
#pragma GCC diagnostic push

12
deps/teagba/src/gfx.cpp vendored
View File

@@ -12,13 +12,13 @@ namespace teagba {
static ox::Array<GbaSpriteAttrUpdate, 128> g_spriteBuffer;
GbaSpriteAttrUpdate &spriteAttr(size_t const i) noexcept {
GbaSpriteAttrUpdate &spriteAttr(size_t i) noexcept {
return g_spriteBuffer[i];
}
void addSpriteUpdate(GbaSpriteAttrUpdate const &upd) noexcept {
void addSpriteUpdate(const GbaSpriteAttrUpdate &upd) noexcept {
const auto ie = REG_IE; // disable vblank interrupt handler
REG_IE = REG_IE & static_cast<uint16_t>(~Int_vblank); // disable vblank interrupt handler
REG_IE = REG_IE & static_cast<uint16_t>(~teagba::Int_vblank); // disable vblank interrupt handler
g_spriteBuffer[upd.idx] = upd;
REG_IE = ie; // enable vblank interrupt handler
}
@@ -29,10 +29,4 @@ void applySpriteUpdates() noexcept {
}
}
void setBgOffset(uint16_t const bg, int16_t const x, int16_t const y) noexcept {
auto &o = regBgOfs(bg);
o.x = x;
o.y = y;
}
}

18
developer-handbook.md
View File

@@ -27,9 +27,9 @@ All components have a platform indicator next to them:
* opengl - OpenGL implementation (P-)
* studio - studio plugin for core (P-)
* keel - keel plugin for core (PG)
* sound - sound system for Nostalgia (PG)
* studio - studio plugin for sound (P-)
* keel - keel plugin for sound (PG)
* scene - defines & processes map data (PG)
* studio - studio plugin for scene (P-)
* keel - keel plugin for scene (PG)
* player - plays the games (PG)
* studio - makes the games (P-)
* tools - command line tools (P-)
@@ -48,7 +48,7 @@ All components have a platform indicator next to them:
Not really that external... (PG)
* GlUtils - OpenGL helpers (P-)
* teagba - GBA assembly startup code (mostly pulled from devkitPro under MPL
2.0), and custom GBA hardware interop code (-G)
2.0), and custom GBA hardware interop code (-G)
Most GBA code is built on PC because it is small and helps to work on both
projects with the same CMake build dir, but GBA code is never linked with any
@@ -89,8 +89,7 @@ The GBA has two major resources for learning about its hardware:
On the surface, it seems like C++ changes the way we do things from C for no
reason, but there are reasons for many of these duplications of functionality.
The C++ language designers aren't stupid.
Question them, but don't ignore them.
The C++ language designers aren't stupid. Question them, but don't ignore them.
#### Casting
@@ -164,11 +163,10 @@ The Ox way of doing things is the Olympic way of doing things.
### Error Handling
Instead of throwing exceptions, generally try to use
[ox::Error](deps/ox/ox-docs.md#error-handling) for error reporting.
Exceptions may be used where errors-as-values will not work, but catch them and
convert them to ```ox::Error``` as soon as possible.
[ox::Errors](deps/ox/ox-docs.md#error-handling) for error reporting,
but exceptions may be used where they make sense.
Exceptions should generally just use ```ox::Exception```, which is basically an
Exceptions should generally just use ```OxException```, which is bascially an
exception form of ```ox::Error```.
### File I/O

6
release-notes.md
View File

@@ -1,9 +1,3 @@
# d2025.07.0
* Add sub-command for exporting TileSheets as PNG files.
* Add 'Reload Project' menu item under File.
* Fix opening a project to mark an unopenable file as closed in the config file on startup.
# d2025.06.0
* Add ability to remember recent projects in config

8
src/nostalgia/modules/gfx/include/nostalgia/gfx/color.hpp
View File

@@ -19,10 +19,10 @@ using Color32 = uint32_t;
[[nodiscard]]
constexpr Color32 toColor32(Color16 nc) noexcept {
auto const r = static_cast<Color32>(((nc & 0b0000000000011111) >> 0) * 8);
auto const g = static_cast<Color32>(((nc & 0b0000001111100000) >> 5) * 8);
auto const b = static_cast<Color32>(((nc & 0b0111110000000000) >> 10) * 8);
auto const a = static_cast<Color32>(255);
const auto r = static_cast<Color32>(((nc & 0b0000000000011111) >> 0) * 8);
const auto g = static_cast<Color32>(((nc & 0b0000001111100000) >> 5) * 8);
const auto b = static_cast<Color32>(((nc & 0b0111110000000000) >> 10) * 8);
const auto a = static_cast<Color32>(255);
return r | (g << 8) | (b << 16) | (a << 24);
}

35
src/nostalgia/modules/gfx/include/nostalgia/gfx/consts.hpp
View File

@@ -12,37 +12,8 @@ constexpr auto TileWidth = 8;
constexpr auto TileHeight = 8;
constexpr auto PixelsPerTile = TileWidth * TileHeight;
constexpr ox::StringLiteral FileExt_ng{"ng"};
constexpr ox::StringLiteral FileExt_nts{"nts"};
constexpr ox::StringLiteral FileExt_npal{"npal"};
constexpr ox::Array<ox::StringLiteral, 2> FileExts_TileSheet{
FileExt_nts,
FileExt_ng,
};
constexpr ox::Array<ox::StringLiteral, 2> FileExts_Palette{
FileExt_npal,
};
[[nodiscard]]
constexpr bool isTileSheet(ox::StringViewCR path) noexcept {
return ox::any_of(
FileExts_TileSheet.begin(),
FileExts_TileSheet.end(),
[path](ox::StringLiteral const &ext) {
return endsWith(path, ext);
});
}
[[nodiscard]]
constexpr bool isPalette(ox::StringViewCR path) noexcept {
return ox::any_of(
FileExts_Palette.begin(),
FileExts_Palette.end(),
[path](ox::StringLiteral const &ext) {
return endsWith(path, ext);
});
}
constexpr ox::StringLiteral FileExt_ng("ng");
constexpr ox::StringLiteral FileExt_nts("nts");
constexpr ox::StringLiteral FileExt_npal("npal");
}

48
src/nostalgia/modules/gfx/include/nostalgia/gfx/gfx.hpp
View File

@@ -111,23 +111,23 @@ struct InitParams {
uint_t glBlocksPerSprite = 64;
};
ox::Result<ox::UPtr<Context>> init(turbine::Context &tctx, InitParams const &params = {}) noexcept;
ox::Result<ox::UPtr<Context>> init(turbine::Context &tctx, InitParams const&params = {}) noexcept;
[[nodiscard]]
int tileColumns(Context const&) noexcept;
int tileColumns(Context&) noexcept;
[[nodiscard]]
int tileRows(Context const&) noexcept;
int tileRows(Context&) noexcept;
ox::Error loadBgPalette(
Context &ctx,
size_t palBank,
CompactPalette const &palette,
CompactPalette const&palette,
size_t page = 0) noexcept;
ox::Error loadSpritePalette(
Context &ctx,
CompactPalette const &palette,
CompactPalette const&palette,
size_t page = 0) noexcept;
ox::Error loadBgPalette(
@@ -138,7 +138,7 @@ ox::Error loadBgPalette(
ox::Error loadBgPalette(
Context &ctx,
size_t palBank,
ox::FileAddress const &paletteAddr) noexcept;
ox::FileAddress const&paletteAddr) noexcept;
ox::Error loadSpritePalette(
Context &ctx,
@@ -146,12 +146,12 @@ ox::Error loadSpritePalette(
ox::Error loadSpritePalette(
Context &ctx,
ox::FileAddress const &paletteAddr) noexcept;
ox::FileAddress const&paletteAddr) noexcept;
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
TileSheetSet const &set) noexcept;
TileSheetSet const&set) noexcept;
void clearCbb(Context &ctx, unsigned cbb) noexcept;
@@ -160,7 +160,7 @@ void clearCbbs(Context &ctx) noexcept;
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t dstTileIdx,
size_t srcTileIdx,
size_t tileCnt) noexcept;
@@ -176,7 +176,7 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
ox::FileAddress const &tsAddr,
ox::FileAddress const&tsAddr,
size_t dstTileIdx,
size_t srcTileIdx,
size_t tileCnt) noexcept;
@@ -184,24 +184,24 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
CompactTileSheet const &ts,
ox::Optional<unsigned> const &paletteBank = {}) noexcept;
CompactTileSheet const&ts,
ox::Optional<unsigned> const&paletteBank = {}) noexcept;
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
ox::StringViewCR tilesheetPath,
ox::Optional<unsigned> const &paletteBank) noexcept;
ox::Optional<unsigned> const&paletteBank) noexcept;
ox::Error loadBgTileSheet(
Context &ctx,
unsigned cbb,
ox::FileAddress const &tilesheetAddr,
ox::Optional<unsigned> const &paletteBank = {}) noexcept;
ox::FileAddress const&tilesheetAddr,
ox::Optional<unsigned> const&paletteBank = {}) noexcept;
ox::Error loadSpriteTileSheet(
Context &ctx,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
bool loadDefaultPalette) noexcept;
ox::Error loadSpriteTileSheet(
@@ -211,16 +211,16 @@ ox::Error loadSpriteTileSheet(
ox::Error loadSpriteTileSheet(
Context &ctx,
ox::FileAddress const &tilesheetAddr,
ox::FileAddress const&tilesheetAddr,
bool loadDefaultPalette = false) noexcept;
ox::Error loadSpriteTileSheet(
Context &ctx,
TileSheetSet const &set) noexcept;
TileSheetSet const&set) noexcept;
void setBgTile(Context &ctx, uint_t bgIdx, int column, int row, unsigned tile, unsigned palBank = 0) noexcept;
void setBgTile(Context &ctx, uint_t bgIdx, int column, int row, BgTile const &tile) noexcept;
void setBgTile(Context &ctx, uint_t bgIdx, int column, int row, BgTile const&tile) noexcept;
void clearBg(Context &ctx, uint_t bgIdx) noexcept;
@@ -238,15 +238,11 @@ void setBgCbb(Context &ctx, unsigned bgIdx, unsigned cbbIdx) noexcept;
void setBgPriority(Context &ctx, uint_t bgIdx, uint_t priority) noexcept;
void setBgOffset(Context &ctx, uint16_t bg, int16_t x, int16_t y) noexcept;
void scrollBgOffset(Context &ctx, uint16_t bg, int16_t x, int16_t y) noexcept;
void hideSprite(Context &ctx, unsigned) noexcept;
void showSprite(Context &ctx, unsigned) noexcept;
void setSprite(Context &ctx, uint_t idx, Sprite const &sprite) noexcept;
void setSprite(Context &ctx, uint_t idx, Sprite const&sprite) noexcept;
[[nodiscard]]
uint_t spriteCount(Context const &ctx) noexcept;
@@ -264,8 +260,8 @@ constexpr ox::CStringView GlslVersion = "#version 330";
[[nodiscard]]
ox::Size drawSize(int scale = 5) noexcept;
void draw(Context &ctx, ox::Size const &renderSz) noexcept;
void draw(gfx::Context &ctx, ox::Size const&renderSz) noexcept;
void draw(Context&, int scale = 5) noexcept;
void draw(gfx::Context&, int scale = 5) noexcept;
}

8
src/nostalgia/modules/gfx/include/nostalgia/gfx/palette.hpp
View File

@@ -168,9 +168,9 @@ OX_MODEL_BEGIN(PaletteV3)
OX_MODEL_END()
[[nodiscard]]
constexpr bool valid(PaletteV3 const &p) noexcept {
constexpr bool valid(PaletteV3 const&p) noexcept {
auto const colors = p.colorInfo.size();
return ox::all_of(p.pages.begin(), p.pages.end(), [colors](auto const &page) {
return ox::all_of(p.pages.begin(), p.pages.end(), [colors](auto const&page) {
return page.size() == colors;
});
}
@@ -198,9 +198,9 @@ OX_MODEL_BEGIN(PaletteV4)
OX_MODEL_END()
[[nodiscard]]
constexpr bool valid(PaletteV4 const &p) noexcept {
constexpr bool valid(PaletteV4 const&p) noexcept {
auto const colors = p.colorNames.size();
return ox::all_of(p.pages.begin(), p.pages.end(), [colors](PalettePageV1 const &page) {
return ox::all_of(p.pages.begin(), p.pages.end(), [colors](PalettePageV1 const&page) {
return page.colors.size() == colors;
});
}

42
src/nostalgia/modules/gfx/include/nostalgia/gfx/ptidxconv.hpp
View File

@@ -11,39 +11,39 @@
namespace nostalgia::gfx {
[[nodiscard]]
constexpr std::size_t ptToIdx(int const x, int const y, int const c, int const scale = 1) noexcept {
auto const tileWidth = TileWidth * scale;
auto const tileHeight = TileHeight * scale;
auto const pixelsPerTile = tileWidth * tileHeight;
auto const colLength = static_cast<std::size_t>(pixelsPerTile);
auto const rowLength = static_cast<std::size_t>(static_cast<std::size_t>(c / tileWidth) * colLength);
auto const colStart = static_cast<std::size_t>(colLength * static_cast<std::size_t>(x / tileWidth));
auto const rowStart = static_cast<std::size_t>(rowLength * static_cast<std::size_t>(y / tileHeight));
auto const colOffset = static_cast<std::size_t>(x % tileWidth);
auto const rowOffset = static_cast<std::size_t>((y % tileHeight) * tileHeight);
constexpr std::size_t ptToIdx(int x, int y, int c, int scale = 1) noexcept {
const auto tileWidth = TileWidth * scale;
const auto tileHeight = TileHeight * scale;
const auto pixelsPerTile = tileWidth * tileHeight;
const auto colLength = static_cast<std::size_t>(pixelsPerTile);
const auto rowLength = static_cast<std::size_t>(static_cast<std::size_t>(c / tileWidth) * colLength);
const auto colStart = static_cast<std::size_t>(colLength * static_cast<std::size_t>(x / tileWidth));
const auto rowStart = static_cast<std::size_t>(rowLength * static_cast<std::size_t>(y / tileHeight));
const auto colOffset = static_cast<std::size_t>(x % tileWidth);
const auto rowOffset = static_cast<std::size_t>((y % tileHeight) * tileHeight);
return static_cast<std::size_t>(colStart + colOffset + rowStart + rowOffset);
}
[[nodiscard]]
constexpr std::size_t ptToIdx(ox::Point const &pt, int const c, int const scale = 1) noexcept {
constexpr std::size_t ptToIdx(const ox::Point &pt, int c, int scale = 1) noexcept {
return ptToIdx(pt.x, pt.y, c * TileWidth, scale);
}
[[nodiscard]]
constexpr ox::Point idxToPt(int const i, int c, int const scale = 1) noexcept {
auto const tileWidth = TileWidth * scale;
auto const tileHeight = TileHeight * scale;
auto const pixelsPerTile = tileWidth * tileHeight;
constexpr ox::Point idxToPt(int i, int c, int scale = 1) noexcept {
const auto tileWidth = TileWidth * scale;
const auto tileHeight = TileHeight * scale;
const auto pixelsPerTile = tileWidth * tileHeight;
// prevent divide by zeros
if (!c) {
++c;
}
auto const t = i / pixelsPerTile; // tile number
auto const iti = i % pixelsPerTile; // in tile index
auto const tc = t % c; // tile column
auto const tr = t / c; // tile row
auto const itx = iti % tileWidth; // in tile x
auto const ity = iti / tileHeight; // in tile y
const auto t = i / pixelsPerTile; // tile number
const auto iti = i % pixelsPerTile; // in tile index
const auto tc = t % c; // tile column
const auto tr = t / c; // tile row
const auto itx = iti % tileWidth; // in tile x
const auto ity = iti / tileHeight; // in tile y
return {
itx + tc * tileWidth,
ity + tr * tileHeight,

24
src/nostalgia/modules/gfx/include/nostalgia/gfx/studio.hpp
View File

@@ -6,28 +6,6 @@
#include <studio/studio.hpp>
#include "tilesheet.hpp"
namespace nostalgia::gfx {
inline void navigateToTileSheet(
studio::Context &ctx, ox::StringParam path, SubSheetId const subsheetId) noexcept {
studio::navigateTo(ctx, std::move(path), ox::intToStr(subsheetId));
}
inline void navigateToPalette(studio::Context &ctx, ox::StringParam path) noexcept {
studio::navigateTo(ctx, std::move(path));
}
inline void navigateToPalette(
studio::Context &ctx,
ox::StringParam path,
size_t const colorIdx,
size_t const palPage) noexcept {
studio::navigateTo(
ctx,
std::move(path),
ox::sfmt("{};{}", colorIdx, palPage));
}
namespace nostalgia::core {
}

94
src/nostalgia/modules/gfx/include/nostalgia/gfx/tilesheet.hpp
View File

@@ -30,7 +30,7 @@ struct TileSheetV1 {
};
[[nodiscard]]
constexpr bool valid(TileSheetV1 const &ts) noexcept {
constexpr bool valid(TileSheetV1 const&ts) noexcept {
auto const bytes = static_cast<size_t>(ts.columns * ts.rows * PixelsPerTile) / (ts.bpp == 4 ? 2 : 1);
return (ts.bpp == 4 || ts.bpp == 8) && ts.pixels.size() == bytes;
}
@@ -71,16 +71,16 @@ struct TileSheetV2 {
};
[[nodiscard]]
constexpr bool valid(TileSheetV2::SubSheet const &ss, int bpp) noexcept {
constexpr bool valid(TileSheetV2::SubSheet const&ss, int bpp) noexcept {
auto const bytes = static_cast<size_t>(ss.columns * ss.rows * PixelsPerTile) / (bpp == 4 ? 2 : 1);
return ox::all_of(ss.subsheets.begin(), ss.subsheets.end(),
[bpp, bytes](TileSheetV2::SubSheet const &s) {
[bpp, bytes](TileSheetV2::SubSheet const&s) {
return bytes == s.pixels.size() && valid(s, bpp);
});
}
[[nodiscard]]
constexpr bool valid(TileSheetV2 const &ts) noexcept {
constexpr bool valid(TileSheetV2 const&ts) noexcept {
return (ts.bpp == 4 || ts.bpp == 8) && valid(ts.subsheet, ts.bpp);
}
@@ -141,16 +141,16 @@ struct TileSheetV3 {
};
[[nodiscard]]
constexpr bool valid(TileSheetV3::SubSheet const &ss, int bpp) noexcept {
constexpr bool valid(TileSheetV3::SubSheet const&ss, int bpp) noexcept {
auto const bytes = static_cast<size_t>(ss.columns * ss.rows * PixelsPerTile) / (bpp == 4 ? 2 : 1);
return ox::all_of(ss.subsheets.begin(), ss.subsheets.end(),
[bpp, bytes](TileSheetV3::SubSheet const &s) {
[bpp, bytes](TileSheetV3::SubSheet const&s) {
return bytes == s.pixels.size() && valid(s, bpp);
});
}
[[nodiscard]]
constexpr bool valid(TileSheetV3 const &ts) noexcept {
constexpr bool valid(TileSheetV3 const&ts) noexcept {
return (ts.bpp == 4 || ts.bpp == 8) && valid(ts.subsheet, ts.bpp);
}
@@ -233,18 +233,18 @@ struct TileSheetV4 {
};
[[nodiscard]]
constexpr bool valid(TileSheetV4::SubSheet const &ss, int bpp) noexcept {
constexpr bool valid(TileSheetV4::SubSheet const&ss, int bpp) noexcept {
auto const bytes = static_cast<size_t>(ss.columns * ss.rows * PixelsPerTile) / (bpp == 4 ? 2 : 1);
return
(ss.pixels.empty() || ss.subsheets.empty()) &&
ox::all_of(ss.subsheets.begin(), ss.subsheets.end(),
[bpp, bytes](TileSheetV4::SubSheet const &s) {
[bpp, bytes](TileSheetV4::SubSheet const&s) {
return bytes == s.pixels.size() && valid(s, bpp);
});
}
[[nodiscard]]
constexpr bool valid(TileSheetV4 const &ts) noexcept {
constexpr bool valid(TileSheetV4 const&ts) noexcept {
return (ts.bpp == 4 || ts.bpp == 8) && valid(ts.subsheet, ts.bpp);
}
@@ -334,19 +334,19 @@ struct TileSheetV5 {
};
[[nodiscard]]
constexpr bool valid(TileSheetV5::SubSheet const &ss) noexcept {
constexpr bool valid(TileSheetV5::SubSheet const&ss) noexcept {
if (ss.subsheets.empty()) {
return std::cmp_equal(ss.columns * ss.rows * PixelsPerTile, ss.pixels.size());
} else {
return ss.pixels.empty() && ox::all_of(ss.subsheets.begin(), ss.subsheets.end(),
[](TileSheetV5::SubSheet const &s) {
[](TileSheetV5::SubSheet const&s) {
return valid(s);
});
}
}
[[nodiscard]]
constexpr bool valid(TileSheetV5 const &ts) noexcept {
constexpr bool valid(TileSheetV5 const&ts) noexcept {
return (ts.bpp == 4 || ts.bpp == 8) && valid(ts.subsheet);
}
@@ -376,24 +376,24 @@ constexpr ox::Error repair(TileSheetV5 &ts) noexcept {
using TileSheet = TileSheetV5;
[[nodiscard]]
std::size_t idx(TileSheet::SubSheet const &ss, ox::Point const &pt) noexcept;
std::size_t idx(TileSheet::SubSheet const&ss, ox::Point const&pt) noexcept;
[[nodiscard]]
size_t getTileCnt(TileSheet const &ts) noexcept;
size_t getTileCnt(TileSheet const&ts) noexcept;
[[nodiscard]]
TileSheet::SubSheet const*getSubsheet(TileSheet const &ts, SubSheetId id) noexcept;
TileSheet::SubSheet const*getSubsheet(TileSheet const&ts, SubSheetId id) noexcept;
[[nodiscard]]
ox::Optional<size_t> getTileIdx(TileSheet const &ts, SubSheetId id) noexcept;
ox::Optional<size_t> getTileIdx(TileSheet const&ts, SubSheetId id) noexcept;
[[nodiscard]]
uint8_t getPixel(TileSheet::SubSheet const &ss, std::size_t idx) noexcept;
uint8_t getPixel(TileSheet::SubSheet const&ss, std::size_t idx) noexcept;
[[nodiscard]]
uint8_t getPixel(TileSheet::SubSheet const &ss, ox::Point const &pt) noexcept;
uint8_t getPixel(TileSheet::SubSheet const&ss, ox::Point const&pt) noexcept;
void setPixel(TileSheet::SubSheet &ss, ox::Point const &pt, uint8_t palIdx) noexcept;
void setPixel(TileSheet::SubSheet &ss, ox::Point const&pt, uint8_t palIdx) noexcept;
ox::Error setPixelCount(TileSheet::SubSheet &ss, std::size_t cnt) noexcept;
@@ -406,14 +406,14 @@ void flipY(TileSheet::SubSheet &ss, ox::Point const &a, ox::Point const &b) noex
* @return a count of the pixels in this sheet
*/
[[nodiscard]]
unsigned pixelCnt(TileSheet::SubSheet const &ss) noexcept;
unsigned pixelCnt(TileSheet::SubSheet const&ss) noexcept;
/**
*
* @param ss
* @param sz size of Subsheet in tiles (not pixels)
*/
ox::Error resizeSubsheet(TileSheet::SubSheet &ss, ox::Size const &sz) noexcept;
ox::Error resizeSubsheet(TileSheet::SubSheet &ss, ox::Size const&sz) noexcept;
/**
* validateSubSheetIdx takes a SubSheetIdx and moves the index to the
@@ -424,21 +424,13 @@ ox::Error resizeSubsheet(TileSheet::SubSheet &ss, ox::Size const &sz) noexcept;
* @return a valid version of idx
*/
[[nodiscard]]
TileSheet::SubSheetIdx validateSubSheetIdx(TileSheet const &ts, TileSheet::SubSheetIdx idx) noexcept;
TileSheet::SubSheetIdx validateSubSheetIdx(TileSheet const&ts, TileSheet::SubSheetIdx idx) noexcept;
ox::Result<TileSheet::SubSheetIdx> getSubSheetIdx(TileSheet const &ts, SubSheetId pId) noexcept;
ox::Result<TileSheet::SubSheet*> getSubSheet(
ox::SpanView<ox::StringView> const &idx,
TileSheet &ts) noexcept;
ox::Result<TileSheet::SubSheet const*> getSubSheet(
ox::SpanView<ox::StringView> const &idx,
TileSheet const &ts) noexcept;
[[nodiscard]]
TileSheet::SubSheet &getSubSheet(
ox::SpanView<uint32_t> const &idx,
ox::SpanView<uint32_t> const&idx,
std::size_t idxIt,
TileSheet::SubSheet &pSubsheet) noexcept;
@@ -447,7 +439,7 @@ TileSheet::SubSheet &getSubSheet(
#pragma GCC diagnostic ignored "-Wdangling-reference"
#endif
[[nodiscard]]
TileSheet::SubSheet const &getSubSheet(TileSheet const &ts, ox::SpanView<uint32_t> const &idx) noexcept;
TileSheet::SubSheet const&getSubSheet(TileSheet const&ts, ox::SpanView<uint32_t> const &idx) noexcept;
[[nodiscard]]
TileSheet::SubSheet &getSubSheet(TileSheet &ts, ox::SpanView<uint32_t> const &idx) noexcept;
@@ -461,29 +453,27 @@ ox::Error insertSubSheet(TileSheet &ts, ox::SpanView<uint32_t> const &idx, TileS
ox::Error rmSubSheet(
TileSheet &ts,
TileSheet::SubSheetIdx const &idx,
TileSheet::SubSheetIdx const&idx,
std::size_t idxIt,
TileSheet::SubSheet &pSubsheet) noexcept;
ox::Error rmSubSheet(TileSheet &ts, TileSheet::SubSheetIdx const &idx) noexcept;
ox::Error rmSubSheet(TileSheet &ts, TileSheet::SubSheetIdx const&idx) noexcept;
[[nodiscard]]
uint8_t getPixel(
TileSheet const &ts,
ox::Point const &pt,
TileSheet::SubSheetIdx const &subsheetIdx) noexcept;
TileSheet const&ts,
ox::Point const&pt,
TileSheet::SubSheetIdx const&subsheetIdx) noexcept;
ox::Result<SubSheetId> getIdFor(TileSheet const &ts, ox::StringViewCR path) noexcept;
ox::Result<SubSheetId> getIdFor(TileSheet const&ts, ox::StringViewCR path) noexcept;
ox::Result<unsigned> getTileOffset(TileSheet const &ts, ox::StringViewCR pNamePath) noexcept;
ox::Result<unsigned> getTileOffset(TileSheet const&ts, ox::StringViewCR pNamePath) noexcept;
ox::Result<uint32_t> getTileOffset(TileSheet const &ts, SubSheetId pId) noexcept;
ox::Result<uint32_t> getTileOffset(TileSheet const&ts, SubSheetId pId) noexcept;
ox::Result<ox::StringView> getNameFor(TileSheet::SubSheet const &ss, SubSheetId pId) noexcept;
ox::Result<ox::StringView> getNameFor(TileSheet::SubSheet const&ss, SubSheetId pId) noexcept;
ox::Result<ox::StringView> getNameFor(TileSheet &ts, SubSheetId pId) noexcept;
ox::Result<ox::StringView> getNameFor(TileSheet const &ts, SubSheetId pId) noexcept;
ox::Result<ox::StringView> getNameFor(TileSheet const&ts, SubSheetId pId) noexcept;
[[nodiscard]]
ox::Vector<uint8_t> pixels(TileSheet &ts) noexcept;
@@ -499,7 +489,7 @@ struct CompactTileSheetV1 {
};
[[nodiscard]]
constexpr bool valid(CompactTileSheetV1 const &ts) noexcept {
constexpr bool valid(CompactTileSheetV1 const&ts) noexcept {
return ts.bpp == 4 || ts.bpp == 8;
}
@@ -508,22 +498,22 @@ using CompactTileSheet = CompactTileSheetV1;
[[nodiscard]]
uint8_t getPixel4Bpp(
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t idx) noexcept;
[[nodiscard]]
uint8_t getPixel8Bpp(
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t idx) noexcept;
[[nodiscard]]
ox::Pair<uint8_t> get2Pixels4Bpp(
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t idx) noexcept;
[[nodiscard]]
ox::Pair<uint8_t> get2Pixels8Bpp(
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t idx) noexcept;
OX_MODEL_BEGIN(TileSheetV1)
@@ -603,8 +593,8 @@ OX_MODEL_BEGIN(CompactTileSheetV1)
OX_MODEL_END()
ox::Vector<uint32_t> resizeTileSheetData(
ox::Vector<uint32_t> const &srcPixels,
ox::Size const &srcSize,
ox::Vector<uint32_t> const&srcPixels,
ox::Size const&srcSize,
int scale = 2) noexcept;
}

107
src/nostalgia/modules/gfx/src/gfx-gba.cpp
View File

@@ -23,15 +23,22 @@ struct BgCbbData {
unsigned bpp = 4;
};
class Context final {
class Context {
public:
turbine::Context &turbineCtx;
ox::Array<BgCbbData, 4> cbbData;
ox::Array<OffsetPair, 4> bgOffsets;
explicit Context(turbine::Context &tctx) noexcept: turbineCtx{tctx} {}
Context(Context const &other) noexcept = delete;
Context(Context &other) noexcept = delete;
Context(Context const&other) noexcept = delete;
Context(Context const&&other) noexcept = delete;
virtual ~Context() noexcept = default;
[[nodiscard]]
ox::MemFS const&rom() const noexcept {
return static_cast<ox::MemFS const&>(*turbine::rom(turbineCtx));
}
};
@@ -69,12 +76,12 @@ ox::Result<ox::UPtr<Context>> init(turbine::Context &tctx, InitParams const&) no
ox::Error loadBgPalette(
Context&,
size_t const palBank,
CompactPalette const &palette,
CompactPalette const&palette,
size_t const page) noexcept {
if (palette.pages.empty()) {
return {};
}
auto const paletteMem = ox::Span{MEM_BG_PALETTE} + palBank * 16;
auto const paletteMem = MEM_BG_PALETTE + palBank * 16;
for (auto i = 0u; i < colorCnt(palette, page); ++i) {
paletteMem[i] = color(palette, page, i);
}
@@ -83,13 +90,14 @@ ox::Error loadBgPalette(
ox::Error loadSpritePalette(
Context&,
CompactPalette const &palette,
CompactPalette const&palette,
size_t const page) noexcept {
if (palette.pages.empty()) {
return {};
}
auto const paletteMem = MEM_SPRITE_PALETTE;
for (auto i = 0u; i < colorCnt(palette, page); ++i) {
MEM_SPRITE_PALETTE[i] = color(palette, page, i);
paletteMem[i] = color(palette, page, i);
}
return {};
}
@@ -110,15 +118,15 @@ void clearCbbs(Context &ctx) noexcept {
static ox::Error loadTileSheetSet(
Context &ctx,
ox::Span<uint16_t> tileMapTargetMem,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
size_t tileWriteIdx = 0;
size_t const bppMod = set.bpp == 4;
for (auto const &entry : set.entries) {
for (auto const&entry : set.entries) {
OX_REQUIRE(ts, keel::readObj<CompactTileSheet>(keelCtx(ctx), entry.tilesheet));
if (set.bpp != ts->bpp && ts->bpp == 8) {
return ox::Error(1, "cannot load an 8 BPP tilesheet into a 4 BPP CBB");
}
for (auto const &s : entry.sections) {
for (auto const&s : entry.sections) {
auto const cnt = (static_cast<size_t>(s.tiles) * PixelsPerTile) >> bppMod;
for (size_t i = 0; i < cnt; ++i) {
auto const begin = static_cast<size_t>(s.begin) * (PixelsPerTile >> bppMod);
@@ -137,7 +145,7 @@ static ox::Error loadTileSheetSet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t const dstTileIdx,
size_t const srcTileIdx,
size_t const tileCnt) noexcept {
@@ -165,10 +173,10 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
CompactTileSheet const &ts,
ox::Optional<unsigned> const &paletteBank) noexcept {
auto const cnt = ts.pixels.size() >> (ts.bpp == 4);
for (size_t i{}; i < cnt; ++i) {
CompactTileSheet const&ts,
ox::Optional<unsigned> const&paletteBank) noexcept {
auto const cnt = (ts.pixels.size() * PixelsPerTile) / (1 + (ts.bpp == 4));
for (size_t i = 0; i < cnt; ++i) {
auto const srcIdx = i * 2;
auto const p1 = static_cast<uint16_t>(ts.pixels[srcIdx]);
auto const p2 = static_cast<uint16_t>(ts.pixels[srcIdx + 1]);
@@ -190,7 +198,7 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
auto const bpp = static_cast<unsigned>(set.bpp);
OX_RETURN_ERROR(loadTileSheetSet(ctx, MEM_BG_TILES[cbb], set));
// update bpp of all bgs with the updated cbb
@@ -214,13 +222,12 @@ static void setSpritesBpp(unsigned const bpp) noexcept {
ox::Error loadSpriteTileSheet(
Context &ctx,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
bool const loadDefaultPalette) noexcept {
for (size_t i{}; i < ts.pixels.size(); i += 2) {
MEM_SPRITE_TILES[i >> 1] =
static_cast<uint16_t>(
ts.pixels[i] |
(static_cast<uint16_t>(ts.pixels[i + 1]) << 8));
for (size_t i = 0; i < ts.pixels.size(); i += 2) {
uint16_t v = ts.pixels[i];
v |= static_cast<uint16_t>(ts.pixels[i + 1] << 8);
MEM_SPRITE_TILES[i] = v;
}
if (loadDefaultPalette && ts.defaultPalette) {
OX_RETURN_ERROR(loadSpritePalette(ctx, ts.defaultPalette));
@@ -231,19 +238,15 @@ ox::Error loadSpriteTileSheet(
ox::Error loadSpriteTileSheet(
Context &ctx,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
auto const bpp = static_cast<unsigned>(set.bpp);
OX_RETURN_ERROR(loadTileSheetSet(ctx, MEM_SPRITE_TILES, set));
OX_RETURN_ERROR(loadTileSheetSet(ctx, {MEM_SPRITE_TILES, 32 * ox::units::KB}, set));
setSpritesBpp(bpp);
return {};
}
void setBgTile(
Context &ctx,
uint_t const bgIdx,
int const column,
int const row,
BgTile const &tile) noexcept {
Context &ctx, uint_t const bgIdx, int const column, int const row, BgTile const&tile) noexcept {
auto const tileIdx = static_cast<std::size_t>(row * tileColumns(ctx) + column);
// see Tonc 9.3
MEM_BG_MAP[bgIdx][tileIdx] =
@@ -272,7 +275,7 @@ bool bgStatus(Context&, unsigned const bg) noexcept {
void setBgStatus(Context&, unsigned const bg, bool const status) noexcept {
constexpr auto Bg0Status = 8;
auto const mask = static_cast<uint32_t>(status) << (Bg0Status + bg);
const auto mask = static_cast<uint32_t>(status) << (Bg0Status + bg);
REG_DISPCTL = REG_DISPCTL | ((REG_DISPCTL & ~mask) | mask);
}
@@ -283,7 +286,7 @@ void setBgBpp(Context&, unsigned const bgIdx, unsigned const bpp) noexcept {
void setBgCbb(Context &ctx, unsigned const bgIdx, unsigned const cbbIdx) noexcept {
auto &bgCtl = regBgCtl(bgIdx);
auto const &cbbData = ctx.cbbData[cbbIdx];
const auto &cbbData = ctx.cbbData[cbbIdx];
teagba::bgSetBpp(bgCtl, cbbData.bpp);
teagba::bgSetCbb(bgCtl, cbbIdx);
}
@@ -293,18 +296,6 @@ void setBgPriority(Context&, uint_t const bgIdx, uint_t const priority) noexcept
bgCtl = (bgCtl & 0b1111'1111'1111'1100u) | (priority & 0b11);
}
void setBgOffset(Context &ctx, uint16_t const bg, int16_t const x, int16_t const y) noexcept {
ctx.bgOffsets[bg] = {.x = x, .y = y};
teagba::setBgOffset(bg, x, y);
}
void scrollBgOffset(Context &ctx, uint16_t const bg, int16_t const x, int16_t const y) noexcept {
auto &o = ctx.bgOffsets[bg];
o.x += x;
o.y += y;
teagba::setBgOffset(bg, o.x, o.y);
}
void hideSprite(Context&, unsigned const idx) noexcept {
//oxAssert(g_spriteUpdates < config::GbaSpriteBufferLen, "Sprite update buffer overflow");
teagba::addSpriteUpdate({
@@ -321,28 +312,28 @@ void showSprite(Context&, unsigned const idx) noexcept {
});
}
void setSprite(Context&, uint_t const idx, Sprite const &sprite) noexcept {
void setSprite(Context&, uint_t const idx, Sprite const&s) noexcept {
//oxAssert(g_spriteUpdates < config::GbaSpriteBufferLen, "Sprite update buffer overflow");
uint16_t const eightBpp = sprite.bpp == 8;
uint16_t const eightBpp = s.bpp == 8;
teagba::addSpriteUpdate({
.attr0 = static_cast<uint16_t>(
(static_cast<uint16_t>(sprite.y & ox::onMask<uint8_t>(0b111'1111)))
(static_cast<uint16_t>(s.y & ox::onMask<uint8_t>(0b111'1111)))
| (static_cast<uint16_t>(1) << 10) // enable alpha
| (static_cast<uint16_t>(eightBpp) << 13)
| (static_cast<uint16_t>(sprite.spriteShape) << 14)),
| (static_cast<uint16_t>(s.spriteShape) << 14)),
.attr1 = static_cast<uint16_t>(
(static_cast<uint16_t>(sprite.x) & ox::onMask<uint8_t>(8))
| (static_cast<uint16_t>(sprite.flipX) << 12)
| (static_cast<uint16_t>(sprite.spriteSize) << 14)),
(static_cast<uint16_t>(s.x) & ox::onMask<uint8_t>(8))
| (static_cast<uint16_t>(s.flipX) << 12)
| (static_cast<uint16_t>(s.spriteSize) << 14)),
.attr2 = static_cast<uint16_t>(
// double tileIdx if 8 bpp
(static_cast<uint16_t>((sprite.tileIdx * (1 + eightBpp)) & ox::onMask<uint16_t>(8)))
| (static_cast<uint16_t>(sprite.priority & 0b11) << 10)),
(static_cast<uint16_t>((s.tileIdx * (1 + eightBpp)) & ox::onMask<uint16_t>(8)))
| (static_cast<uint16_t>(s.priority & 0b11) << 10)),
.idx = static_cast<uint16_t>(idx),
});
}
uint_t spriteCount(Context const &) noexcept {
uint_t spriteCount(Context const&) noexcept {
return SpriteCount;
}
@@ -350,13 +341,13 @@ uint_t spriteCount(Context const &) noexcept {
namespace ox {
void panic(char const*panicMsg, Error const&err, std::source_location const &src) noexcept {
void panic(const char *file, int line, const char *panicMsg, ox::Error const&err) noexcept {
using namespace nostalgia::gfx;
// reset heap to make sure we have enough memory to allocate context data
OX_ALLOW_UNSAFE_BUFFERS_BEGIN
auto const heapBegin = reinterpret_cast<char*>(MEM_EWRAM.data());
auto const heapSz = MEM_EWRAM.size() / 2;
auto const heapEnd = reinterpret_cast<char*>(MEM_EWRAM.data() + heapSz);
const auto heapBegin = reinterpret_cast<char*>(MEM_EWRAM_BEGIN);
const auto heapSz = (MEM_EWRAM_END - MEM_EWRAM_BEGIN) / 2;
const auto heapEnd = reinterpret_cast<char*>(MEM_EWRAM_BEGIN + heapSz);
ox::heapmgr::initHeap(heapBegin, heapEnd);
OX_ALLOW_UNSAFE_BUFFERS_END
auto tctx = turbine::init(keel::loadRomFs("").unwrap(), "Nostalgia").unwrap();
@@ -374,7 +365,7 @@ void panic(char const*panicMsg, Error const&err, std::source_location const &src
}
consoleWrite(*ctx, 32 + 1, 15, "PLEASE RESTART THE SYSTEM");
// print to terminal if in mGBA
oxErrf("\033[31;1;1mPANIC:\033[0m [{}:{}]: {}\n", src.file_name(), src.line(), panicMsg);
oxErrf("\033[31;1;1mPANIC:\033[0m [{}:{}]: {}\n", file, line, panicMsg);
if (err.msg) {
oxErrf("\tError Message:\t{}\n", err.msg);
}

134
src/nostalgia/modules/gfx/src/gfx-opengl.cpp
View File

@@ -87,7 +87,9 @@ class Context {
blocksPerSprite{params.glBlocksPerSprite} {
}
Context(Context const&) = delete;
Context(Context&&) = delete;
Context &operator=(Context const&) = delete;
Context &operator=(Context&&) = delete;
~Context() noexcept {
turbine::gl::removeDrawer(turbineCtx, &drawer);
}
@@ -111,7 +113,7 @@ namespace renderer {
static constexpr auto Scale = 1;
static constexpr auto PriorityScale = 0.01f;
static constexpr ox::StringLiteral bgvshadTmpl{R"glsl(
static constexpr ox::CStringView bgvshadTmpl = R"glsl(
{}
in vec2 vTexCoord;
in vec3 vPosition;
@@ -133,9 +135,9 @@ static constexpr ox::StringLiteral bgvshadTmpl{R"glsl(
vTexCoord.x,
vTexCoord.y * vTileHeight + vTileIdx * vTileHeight);
fPalOffset = vPalOffset;
})glsl"};
})glsl";
static constexpr ox::StringLiteral bgfshadTmpl{R"glsl(
static constexpr ox::CStringView bgfshadTmpl = R"glsl(
{}
out vec4 outColor;
in float fPalOffset;
@@ -149,9 +151,9 @@ static constexpr ox::StringLiteral bgfshadTmpl{R"glsl(
if (outColor.a == 0) {
discard;
}
})glsl"};
})glsl";
static constexpr ox::StringLiteral spritevshadTmpl{R"glsl(
static constexpr ox::CStringView spritevshadTmpl = R"glsl(
{}
in float vEnabled;
in vec3 vPosition;
@@ -168,9 +170,9 @@ static constexpr ox::StringLiteral spritevshadTmpl{R"glsl(
vPosition.z - 0.004,
1.0) * vEnabled;
fTexCoord = vTexCoord * vec2(1, vTileHeight);
})glsl"};
})glsl";
static constexpr ox::StringLiteral spritefshadTmpl{R"glsl(
static constexpr ox::CStringView spritefshadTmpl = R"glsl(
{}
out vec4 outColor;
in vec2 fTexCoord;
@@ -183,7 +185,7 @@ static constexpr ox::StringLiteral spritefshadTmpl{R"glsl(
if (outColor.a == 0) {
discard;
}
})glsl"};
})glsl";
[[nodiscard]]
static constexpr auto bgVertexRow(uint_t const x, uint_t const y) noexcept {
@@ -285,7 +287,7 @@ static void initSpriteBufferObjects(Context const &ctx, glutils::BufferSet &bs)
static void initBackgroundBufferObjects(glutils::BufferSet &bs) noexcept {
for (auto x = 0u; x < TileColumns; ++x) {
for (auto y = 0u; y < TileRows; ++y) {
auto const i = bgVertexRow(x, y);
const auto i = bgVertexRow(x, y);
auto const vbo = ox::Span{bs.vertices}
+ i * static_cast<std::size_t>(BgVertexVboLength);
auto const ebo = ox::Span{bs.elements}
@@ -385,7 +387,7 @@ static void initBackgroundBufferset(
static glutils::GLTexture createTexture(
GLsizei const w,
GLsizei const h,
void const *pixels) noexcept {
void const*pixels) noexcept {
GLuint texId = 0;
glGenTextures(1, &texId);
glutils::GLTexture tex(texId);
@@ -423,22 +425,22 @@ static void drawBackground(CBB &cbb) noexcept {
static void drawBackgrounds(
Context &ctx,
ox::Size const &renderSz) noexcept {
ox::Size const&renderSz) noexcept {
// load background shader and its uniforms
glUseProgram(ctx.bgShader);
auto const uniformSrcImgSz = glGetUniformLocation(ctx.bgShader, "fSrcImgSz");
auto const uniformXScale = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vXScale"));
auto const uniformTileHeight = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vTileHeight"));
auto const uniformBgIdx = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vBgIdx"));
auto const [wi, hi] = renderSz;
auto const wf = static_cast<float>(wi);
auto const hf = static_cast<float>(hi);
const auto uniformSrcImgSz = glGetUniformLocation(ctx.bgShader, "fSrcImgSz");
const auto uniformXScale = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vXScale"));
const auto uniformTileHeight = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vTileHeight"));
const auto uniformBgIdx = static_cast<GLint>(glGetUniformLocation(ctx.bgShader, "vBgIdx"));
const auto [wi, hi] = renderSz;
const auto wf = static_cast<float>(wi);
const auto hf = static_cast<float>(hi);
glUniform1f(uniformXScale, hf / wf);
auto bgIdx = 0.f;
for (auto const &bg : ctx.backgrounds) {
for (const auto &bg : ctx.backgrounds) {
if (bg.enabled) {
auto &cbb = ctx.cbbs[bg.cbbIdx];
auto const tileRows = cbb.tex.height / (TileHeight * Scale);
const auto tileRows = cbb.tex.height / (TileHeight * Scale);
glUniform1f(uniformTileHeight, 1.0f / static_cast<float>(tileRows));
glUniform2f(
uniformSrcImgSz,
@@ -451,14 +453,14 @@ static void drawBackgrounds(
}
}
static void drawSprites(Context &ctx, ox::Size const &renderSz) noexcept {
static void drawSprites(Context &ctx, ox::Size const&renderSz) noexcept {
glUseProgram(ctx.spriteShader);
auto &sb = ctx.spriteBlocks;
auto const uniformXScale = glGetUniformLocation(ctx.bgShader, "vXScale");
auto const uniformTileHeight = glGetUniformLocation(ctx.spriteShader, "vTileHeight");
auto const [wi, hi] = renderSz;
auto const wf = static_cast<float>(wi);
auto const hf = static_cast<float>(hi);
const auto uniformXScale = glGetUniformLocation(ctx.bgShader, "vXScale");
const auto uniformTileHeight = glGetUniformLocation(ctx.spriteShader, "vTileHeight");
const auto [wi, hi] = renderSz;
const auto wf = static_cast<float>(wi);
const auto hf = static_cast<float>(hi);
glUniform1f(uniformXScale, hf / wf);
// update vbo
glBindVertexArray(sb.vao);
@@ -467,7 +469,7 @@ static void drawSprites(Context &ctx, ox::Size const &renderSz) noexcept {
glutils::sendVbo(sb);
}
// set vTileHeight uniform
auto const tileRows = sb.tex.height / (TileHeight * Scale);
const auto tileRows = sb.tex.height / (TileHeight * Scale);
glUniform1f(uniformTileHeight, 1.0f / static_cast<float>(tileRows));
// draw
glBindTexture(GL_TEXTURE_2D, sb.tex);
@@ -479,7 +481,7 @@ static void loadPalette(
ox::Array<GLfloat, 1024> &palette,
size_t const palOffset,
GLuint const shaderPgrm,
CompactPalette const &pal,
CompactPalette const&pal,
size_t const page = 0) noexcept {
static constexpr std::size_t ColorCnt = 256;
for (auto i = palOffset; auto const c : pal.pages[page]) {
@@ -491,14 +493,14 @@ static void loadPalette(
// make first color transparent
palette[palOffset + 3] = 0;
glUseProgram(shaderPgrm);
auto const uniformPalette = static_cast<GLint>(glGetUniformLocation(shaderPgrm, "fPalette"));
const auto uniformPalette = static_cast<GLint>(glGetUniformLocation(shaderPgrm, "fPalette"));
glUniform4fv(uniformPalette, ColorCnt, palette.data());
}
static void setSprite(
Context &ctx,
uint_t const idx,
Sprite const &s) noexcept {
Sprite const&s) noexcept {
// Tonc Table 8.4
struct Sz { uint_t x{}, y{}; };
static constexpr ox::Array<Sz, 12> dimensions{
@@ -524,12 +526,12 @@ static void setSprite(
auto const uY = static_cast<int>(s.y + 8) % 255 - 8;
oxAssert(1 < ctx.spriteBlocks.vertices.size(), "vbo overflow");
oxAssert(1 < ctx.spriteBlocks.elements.size(), "ebo overflow");
auto const spriteVboSz = ctx.blocksPerSprite * renderer::SpriteVertexVboLength;
auto const spriteEboSz = ctx.blocksPerSprite * renderer::SpriteVertexEboLength;
const auto spriteVboSz = ctx.blocksPerSprite * renderer::SpriteVertexVboLength;
const auto spriteEboSz = ctx.blocksPerSprite * renderer::SpriteVertexEboLength;
auto const vboBase = spriteVboSz * idx;
auto const eboBase = spriteEboSz * idx;
auto i = 0u;
auto const set = [&](int xIt, int yIt, bool enabled) {
const auto set = [&](int xIt, int yIt, bool enabled) {
auto const fX = static_cast<float>(uX + xIt * 8) / 8;
auto const fY = static_cast<float>(uY + yIt * 8) / 8;
auto const vboIdx = vboBase + renderer::SpriteVertexVboLength * i;
@@ -572,12 +574,12 @@ static void setSprite(
}
ox::Result<ox::UPtr<Context>> init(turbine::Context &tctx, InitParams const &params) noexcept {
ox::Result<ox::UPtr<Context>> init(turbine::Context &tctx, InitParams const&params) noexcept {
auto ctx = ox::make_unique<Context>(tctx, params);
auto const bgVshad = ox::sfmt(renderer::bgvshadTmpl, gl::GlslVersion);
auto const bgFshad = ox::sfmt(renderer::bgfshadTmpl, gl::GlslVersion);
auto const spriteVshad = ox::sfmt(renderer::spritevshadTmpl, gl::GlslVersion);
auto const spriteFshad = ox::sfmt(renderer::spritefshadTmpl, gl::GlslVersion);
const auto bgVshad = ox::sfmt(renderer::bgvshadTmpl, gl::GlslVersion);
const auto bgFshad = ox::sfmt(renderer::bgfshadTmpl, gl::GlslVersion);
const auto spriteVshad = ox::sfmt(renderer::spritevshadTmpl, gl::GlslVersion);
const auto spriteFshad = ox::sfmt(renderer::spritefshadTmpl, gl::GlslVersion);
OX_RETURN_ERROR(glutils::buildShaderProgram(bgVshad, bgFshad).moveTo(ctx->bgShader));
OX_RETURN_ERROR(
glutils::buildShaderProgram(spriteVshad, spriteFshad).moveTo(ctx->spriteShader));
@@ -601,12 +603,12 @@ struct TileSheetData {
}
};
static ox::Result<TileSheetData> normalizeTileSheet
(CompactTileSheet const &ts) noexcept {
static ox::Result<TileSheetData> normalizeTileSheet(
CompactTileSheet const&ts) noexcept {
const uint_t bytesPerTile = ts.bpp == 8 ? PixelsPerTile : PixelsPerTile / 2;
auto const tiles = ts.pixels.size() / bytesPerTile;
const auto tiles = ts.pixels.size() / bytesPerTile;
constexpr int width = 8;
int const height = 8 * static_cast<int>(tiles);
const int height = 8 * static_cast<int>(tiles);
ox::Vector<uint32_t> pixels;
if (bytesPerTile == 64) { // 8 BPP
pixels.resize(ts.pixels.size());
@@ -630,7 +632,7 @@ static ox::Result<TileSheetData> normalizeTileSheet
ox::Error loadBgPalette(
Context &ctx,
size_t const palBank,
CompactPalette const &palette,
CompactPalette const&palette,
size_t const page) noexcept {
renderer::loadPalette(ctx.bgPalette, palBank * 16 * 4, ctx.bgShader, palette, page);
return {};
@@ -638,7 +640,7 @@ ox::Error loadBgPalette(
ox::Error loadSpritePalette(
Context &ctx,
CompactPalette const &palette,
CompactPalette const&palette,
size_t const page) noexcept {
ox::Array<GLfloat, 1024> pal;
renderer::loadPalette(pal, 0, ctx.spriteShader, palette, page);
@@ -647,14 +649,14 @@ ox::Error loadSpritePalette(
static ox::Result<TileSheetData> buildSetTsd(
Context const &ctx,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
auto &kctx = keelCtx(ctx.turbineCtx);
TileSheetData setTsd;
setTsd.width = TileWidth;
for (auto const &entry : set.entries) {
for (auto const&entry : set.entries) {
OX_REQUIRE(tilesheet, readObj<CompactTileSheet>(kctx, entry.tilesheet));
OX_REQUIRE(tsd, normalizeTileSheet(*tilesheet));
for (auto const &s : entry.sections) {
for (auto const&s : entry.sections) {
auto const size = s.tiles * PixelsPerTile;
for (auto i = 0; i < size; ++i) {
auto const srcIdx = static_cast<size_t>(i) + static_cast<size_t>(s.begin * PixelsPerTile);
@@ -667,7 +669,7 @@ static ox::Result<TileSheetData> buildSetTsd(
}
static void copyPixels(
CompactTileSheet const &ts,
CompactTileSheet const&ts,
ox::Span<uint32_t> const dst,
size_t const srcPxIdx,
size_t const pxlCnt) noexcept {
@@ -702,7 +704,7 @@ void clearCbbs(Context &ctx) noexcept {
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
size_t const dstTileIdx,
size_t const srcTileIdx,
size_t const tileCnt) noexcept {
@@ -726,8 +728,8 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
uint_t const cbb,
CompactTileSheet const &ts,
ox::Optional<unsigned> const &paletteBank) noexcept {
CompactTileSheet const&ts,
ox::Optional<unsigned> const&paletteBank) noexcept {
auto const bytesPerTile = static_cast<uint64_t>(PixelsPerTile / (1 + (ts.bpp == 4)));
auto const tiles = ts.pixels.size() / bytesPerTile;
OX_RETURN_ERROR(loadBgTileSheet(ctx, cbb, ts, 0, 0, tiles));
@@ -740,7 +742,7 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
OX_REQUIRE(setTsd, buildSetTsd(ctx, set));
ctx.cbbs[cbb].tex = renderer::createTexture(setTsd.width, setTsd.height, setTsd.pixels.data());
return {};
@@ -748,7 +750,7 @@ ox::Error loadBgTileSheet(
ox::Error loadSpriteTileSheet(
Context &ctx,
CompactTileSheet const &ts,
CompactTileSheet const&ts,
bool const loadDefaultPalette) noexcept {
OX_REQUIRE(tsd, normalizeTileSheet(ts));
oxTracef("nostalgia.gfx.gl", "loadSpriteTexture: { w: {}, h: {} }", tsd.width, tsd.height);
@@ -761,7 +763,7 @@ ox::Error loadSpriteTileSheet(
ox::Error loadSpriteTileSheet(
Context &ctx,
TileSheetSet const &set) noexcept {
TileSheetSet const&set) noexcept {
OX_REQUIRE(setTsd, buildSetTsd(ctx, set));
ctx.spriteBlocks.tex = renderer::createTexture(setTsd.width, setTsd.height, setTsd.pixels.data());
return {};
@@ -772,18 +774,18 @@ void setBgTile(
uint_t const bgIdx,
int const column,
int const row,
BgTile const &tile) noexcept {
BgTile const&tile) noexcept {
oxTracef(
"nostalgia.gfx.setBgTile",
"bgIdx: {}, column: {}, row: {}, tile: {}, palBank: {}",
bgIdx, column, row, tile.tileIdx, tile.palBank);
auto const z = static_cast<uint_t>(bgIdx);
auto const y = static_cast<uint_t>(row);
auto const x = static_cast<uint_t>(column);
auto const i = renderer::bgVertexRow(x, y);
const auto z = static_cast<uint_t>(bgIdx);
const auto y = static_cast<uint_t>(row);
const auto x = static_cast<uint_t>(column);
const auto i = renderer::bgVertexRow(x, y);
auto &cbb = ctx.cbbs[z];
auto const vbo = ox::Span{cbb.vertices} + i * renderer::BgVertexVboLength;
auto const ebo = ox::Span{cbb.elements} + i * renderer::BgVertexEboLength;
const auto vbo = ox::Span{cbb.vertices} + i * renderer::BgVertexVboLength;
const auto ebo = ox::Span{cbb.elements} + i * renderer::BgVertexEboLength;
auto &bg = ctx.backgrounds[bgIdx];
renderer::setTileBufferObject(
static_cast<uint_t>(i * renderer::BgVertexVboRows),
@@ -839,12 +841,6 @@ void setBgPriority(Context &ctx, uint_t const bgIdx, uint_t const priority) noex
bg.priority = static_cast<float>(priority & 0b11);
}
void setBgOffset(Context&, uint16_t const, int16_t const, int16_t const) noexcept {
}
void scrollBgOffset(Context&, uint16_t const, int16_t const, int16_t const) noexcept {
}
void hideSprite(Context &ctx, uint_t const idx) noexcept {
auto &s = ctx.spriteStates[idx];
s.enabled = false;
@@ -857,7 +853,7 @@ void showSprite(Context &ctx, uint_t const idx) noexcept {
renderer::setSprite(ctx, idx, s);
}
void setSprite(Context &ctx, uint_t const idx, Sprite const &sprite) noexcept {
void setSprite(Context &ctx, uint_t const idx, Sprite const&sprite) noexcept {
auto &s = ctx.spriteStates[idx];
s = sprite;
renderer::setSprite(ctx, idx, s);
@@ -873,7 +869,7 @@ ox::Size drawSize(int const scale) noexcept {
return {240 * scale, 160 * scale};
}
void draw(Context &ctx, ox::Size const &renderSz) noexcept {
void draw(Context &ctx, ox::Size const&renderSz) noexcept {
glViewport(0, 0, renderSz.width, renderSz.height);
glEnable(GL_DEPTH_TEST);
glEnable(GL_BLEND);

16
src/nostalgia/modules/gfx/src/gfx.cpp
View File

@@ -10,11 +10,11 @@ namespace nostalgia::gfx {
constexpr auto GbaTileColumns = 32;
constexpr auto GbaTileRows = 32;
int tileColumns(Context const&) noexcept {
int tileColumns(Context&) noexcept {
return GbaTileColumns;
}
int tileRows(Context const&) noexcept {
int tileRows(Context&) noexcept {
return GbaTileRows;
}
@@ -51,7 +51,7 @@ ox::Error loadSpritePalette(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
ox::FileAddress const &tsAddr,
ox::FileAddress const&tsAddr,
size_t const dstTileIdx,
size_t const srcTileIdx,
size_t const tileCnt) noexcept {
@@ -74,7 +74,7 @@ ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
ox::StringViewCR tilesheetPath,
ox::Optional<unsigned> const &paletteBank) noexcept {
ox::Optional<unsigned> const&paletteBank) noexcept {
OX_REQUIRE(ts, keel::readObj<CompactTileSheet>(keelCtx(ctx), tilesheetPath));
return loadBgTileSheet(ctx, cbb, *ts, paletteBank);
}
@@ -82,8 +82,8 @@ ox::Error loadBgTileSheet(
ox::Error loadBgTileSheet(
Context &ctx,
unsigned const cbb,
ox::FileAddress const &tilesheetAddr,
ox::Optional<unsigned> const &paletteBank) noexcept {
ox::FileAddress const&tilesheetAddr,
ox::Optional<unsigned> const&paletteBank) noexcept {
OX_REQUIRE(ts, keel::readObj<CompactTileSheet>(keelCtx(ctx), tilesheetAddr));
return loadBgTileSheet(ctx, cbb, *ts, paletteBank);
}
@@ -98,7 +98,7 @@ ox::Error loadSpriteTileSheet(
ox::Error loadSpriteTileSheet(
Context &ctx,
ox::FileAddress const &tilesheetAddr,
ox::FileAddress const&tilesheetAddr,
bool const loadDefaultPalette) noexcept {
OX_REQUIRE(ts, readObj<CompactTileSheet>(keelCtx(ctx), tilesheetAddr));
return loadSpriteTileSheet(ctx, *ts, loadDefaultPalette);
@@ -249,7 +249,7 @@ void setBgTile(
}
ox::Error initConsole(Context &ctx) noexcept {
constexpr ox::FileAddress TilesheetAddr = ox::StringLiteral("/TileSheets/Charset.nts");
constexpr ox::FileAddress TilesheetAddr = ox::StringLiteral("/TileSheets/Charset.ng");
constexpr ox::FileAddress PaletteAddr = ox::StringLiteral("/Palettes/Charset.npal");
setBgStatus(ctx, 0b0001);
setBgCbb(ctx, 0, 0);

2
src/nostalgia/modules/gfx/src/keel/keelmodule.cpp
View File

@@ -89,7 +89,7 @@ static class: public keel::Module {
} const mod;
keel::Module const *keelModule() noexcept {
keel::Module const*keelModule() noexcept {
return &mod;
}

2
src/nostalgia/modules/gfx/src/keel/typeconv.cpp
View File

@@ -61,7 +61,7 @@ ox::Error convertPaletteV4ToPaletteV5(
for (auto &s : src.pages) {
ox::Vector<PaletteColorV2> colors;
colors.reserve(s.colors.size());
for (auto const &c : s.colors) {
for (auto const&c : s.colors) {
colors.emplace_back(c.r, c.g, c.b, c.a);
}
dst.pages.emplace_back(PalettePageV2{

1
src/nostalgia/modules/gfx/src/keel/typeconv.hpp
View File

@@ -8,6 +8,7 @@
#include <keel/typeconv.hpp>
#include <nostalgia/gfx/context.hpp>
#include <nostalgia/gfx/palette.hpp>
#include <nostalgia/gfx/tilesheet.hpp>

1
src/nostalgia/modules/gfx/src/studio/CMakeLists.txt
View File

@@ -26,4 +26,3 @@ install(
add_subdirectory(paletteeditor)
add_subdirectory(tilesheeteditor)
add_subdirectory(subcommands)

2
src/nostalgia/modules/gfx/src/studio/paletteeditor/paletteeditor-imgui.cpp
View File

@@ -72,7 +72,7 @@ PaletteEditorImGui::PaletteEditorImGui(studio::Context &sctx, ox::StringParam pa
Editor(sctx, std::move(path)),
m_sctx(sctx),
m_tctx(sctx.tctx),
m_pal(m_sctx.project->loadObj<Palette>(itemPath()).unwrapThrow()) {
m_pal(*keel::readObj<Palette>(keelCtx(m_tctx), itemPath()).unwrapThrow()) {
undoStack()->changeTriggered.connect(this, &PaletteEditorImGui::handleCommand);
m_pageRenameDlg.inputSubmitted.connect(this, &PaletteEditorImGui::renamePage);
}

2
src/nostalgia/modules/gfx/src/studio/paletteeditor/paletteeditor-imgui.hpp
View File

@@ -20,7 +20,7 @@ class PaletteEditorImGui: public studio::Editor {
bool m_show = false;
public:
ox::Signal<ox::Error(ox::StringView name)> inputSubmitted;
constexpr void show(ox::StringView const &name) noexcept {
constexpr void show(ox::StringView const&name) noexcept {
m_show = true;
m_name = name;
}

20
src/nostalgia/modules/gfx/src/studio/studiomodule.cpp
View File

@@ -8,25 +8,10 @@
#include "paletteeditor/paletteeditor-imgui.hpp"
#include "tilesheeteditor/tilesheeteditor-imgui.hpp"
#include "subcommands/export-tilesheet/export-tilesheet.hpp"
namespace nostalgia::gfx {
static struct: studio::Module {
ox::String id() const noexcept final {
return ox::String{"net.drinkingtea.nostalgia.gfx"};
}
ox::Vector<studio::Command> commands() const final {
return {
{
"export-tilesheet",
cmdExportTilesheet,
}
};
}
static class: public studio::Module {
ox::Vector<studio::EditorMaker> editors(studio::Context &ctx) const noexcept final {
return {
studio::editorMaker<TileSheetEditorImGui>(ctx, {FileExt_ng, FileExt_nts}),
@@ -43,10 +28,9 @@ static struct: studio::Module {
}, ox::ClawFormat::Organic));
return out;
}
} const mod;
studio::Module const *studioModule() noexcept {
const studio::Module *studioModule() noexcept {
return &mod;
}

10
src/nostalgia/modules/gfx/src/studio/subcommands/CMakeLists.txt
View File

@@ -1,10 +0,0 @@
target_sources(
NostalgiaGfx-Studio PRIVATE
export-tilesheet/export-tilesheet.cpp
)
target_link_libraries(
NostalgiaGfx-Studio PUBLIC
OxClArgs
)

161
src/nostalgia/modules/gfx/src/studio/subcommands/export-tilesheet/export-tilesheet.cpp
View File

@@ -1,161 +0,0 @@
/*
* Copyright 2016 - 2025 Gary Talent (gary@drinkingtea.net). All rights reserved.
*/
#include <lodepng.h>
#include <ox/clargs/clargs.hpp>
#include <ox/std/trace.hpp>
#include <studio/project.hpp>
#include <nostalgia/gfx/palette.hpp>
#include <nostalgia/gfx/tilesheet.hpp>
#include "export-tilesheet.hpp"
#include "nostalgia/gfx/tilesheet.hpp"
#include "studio/context.hpp"
namespace nostalgia::gfx {
static ox::Vector<uint32_t> normalizePixelSizes(
ox::Vector<uint8_t> const &inPixels) noexcept {
ox::Vector<uint32_t> outPixels;
outPixels.reserve(inPixels.size());
outPixels.resize(inPixels.size());
for (size_t i{}; i < inPixels.size(); ++i) {
outPixels[i] = inPixels[i];
}
return outPixels;
}
static ox::Vector<uint32_t> normalizePixelArrangement(
ox::Vector<uint32_t> const &inPixels,
int const cols,
int const scale) {
auto const scalePt = ox::Point{scale, scale};
auto const width = cols * TileWidth;
auto const height = static_cast<int>(inPixels.size()) / width;
auto const dstWidth = width * scale;
ox::Vector<uint32_t> outPixels(static_cast<size_t>((width * scale) * (height * scale)));
for (size_t dstIdx{}; dstIdx < outPixels.size(); ++dstIdx) {
auto const dstPt = ox::Point{
static_cast<int>(dstIdx) % dstWidth,
static_cast<int>(dstIdx) / dstWidth};
auto const srcPt = dstPt / scalePt;
auto const srcIdx = ptToIdx(srcPt, cols);
outPixels[dstIdx] = inPixels[srcIdx];
}
return outPixels;
}
static ox::Error toPngFile(
ox::CStringViewCR path,
ox::Vector<uint32_t> &&pixels,
Palette const &pal,
size_t const page,
unsigned const width,
unsigned const height) noexcept {
for (auto &c : pixels) {
c = color32(color(pal, page, c)) | static_cast<Color32>(0XFF << 24);
}
constexpr auto fmt = LCT_RGBA;
return ox::Error(static_cast<ox::ErrorCode>(
lodepng_encode_file(
path.c_str(),
reinterpret_cast<uint8_t const*>(pixels.data()),
width,
height,
fmt,
8)));
}
ox::Error exportSubsheetToPng(
TileSheet::SubSheet const &s,
Palette const &pal,
size_t const palPage,
ox::CStringViewCR dstPath,
int const scale) noexcept {
// subsheet to png
auto const width = s.columns * TileWidth;
auto const height = s.rows * TileHeight;
auto const err = toPngFile(
dstPath,
normalizePixelArrangement(
normalizePixelSizes(s.pixels),
s.columns,
scale),
pal,
palPage,
static_cast<unsigned>(width * scale),
static_cast<unsigned>(height * scale));
if (err) {
oxErrorf("TileSheet export failed: {}", toStr(err));
return ox::Error{7, "TileSheet export failed"};
}
return {};
}
ox::Error exportSubsheetToPng(
TileSheet const &src,
Palette const &pal,
ox::StringViewCR subsheetPath,
size_t const palPage,
ox::CStringViewCR dstPath,
int const scale) noexcept {
// subsheet to png
auto const [s, ssErr] = getSubSheet(
ox::split(subsheetPath, '.'), src);
if (ssErr) {
return ox::Error{6, "failed to find SubSheet"};
}
return exportSubsheetToPng(
*s,
pal,
palPage,
dstPath,
scale);
}
ox::Error cmdExportTilesheet(studio::Project &project, ox::SpanView<ox::CString> const args) noexcept {
// parse args
ox::ClArgs const clargs{args};
bool showUsage = true;
OX_DEFER [&showUsage] {
if (showUsage) {
oxErr("usage: export-tilesheet "
"-src-path <path> "
"-dst-path <path> "
"[-pal-path <path>] "
"[-subsheet-path <path>] "
"[-scale <int>]\n");
}
};
if (args.empty()) {
return {};
}
OX_REQUIRE(srcPath, clargs.getString("src-path").transformError(1, "no src path specified"));
OX_REQUIRE(dstPath, clargs.getString("dst-path").transformError(2, "no dst path specified"));
auto const palPath = clargs.getString("pal-path", "");
auto const subsheetPath = clargs.getString("subsheet-path").or_value(ox::String{"Root"});
auto const palPage = static_cast<size_t>(clargs.getInt("pal-page", 0));
auto const scale = clargs.getInt("scale", 1);
showUsage = false;
// load objects
auto &kctx = project.kctx();
OX_REQUIRE(ts, keel::readObj<TileSheet>(kctx, srcPath).transformError(4, "could not load TileSheet"));
OX_REQUIRE(pal, keel::readObj<Palette>(kctx, palPath.size() ? palPath : ts->defaultPalette)
.transformError(5, "could not load Palette"));
// export to the destination file
return exportSubsheetToPng(
*ts,
*pal,
subsheetPath,
palPage,
dstPath,
scale);
}
}

35
src/nostalgia/modules/gfx/src/studio/subcommands/export-tilesheet/export-tilesheet.hpp
View File

@@ -1,35 +0,0 @@
/*
* Copyright 2016 - 2025 Gary Talent (gary@drinkingtea.net). All rights reserved.
*/
#pragma once
#include <ox/std/error.hpp>
#include <ox/std/span.hpp>
#include <ox/std/stringview.hpp>
#include <studio/project.hpp>
#include <nostalgia/gfx/palette.hpp>
#include <nostalgia/gfx/tilesheet.hpp>
namespace nostalgia::gfx {
ox::Error exportSubsheetToPng(
TileSheet::SubSheet const &s,
Palette const &pal,
size_t palPage,
ox::CStringViewCR dstPath,
int scale) noexcept;
ox::Error exportSubsheetToPng(
TileSheet const &src,
Palette const &pal,
ox::StringViewCR subsheetPath,
size_t palPage,
ox::CStringViewCR dstPath,
int scale) noexcept;
ox::Error cmdExportTilesheet(studio::Project& project, ox::SpanView<ox::CString> args) noexcept;
}

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/addsubsheetcommand.cpp
View File

@@ -60,7 +60,7 @@ int AddSubSheetCommand::commandId() const noexcept {
return static_cast<int>(CommandId::AddSubSheet);
}
TileSheet::SubSheetIdx const &AddSubSheetCommand::subsheetIdx() const noexcept {
TileSheet::SubSheetIdx const&AddSubSheetCommand::subsheetIdx() const noexcept {
return m_parentIdx;
}

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/addsubsheetcommand.hpp
View File

@@ -25,7 +25,7 @@ class AddSubSheetCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/commands.hpp
View File

@@ -37,7 +37,7 @@ constexpr bool operator==(int i, CommandId c) noexcept {
class TileSheetCommand: public studio::UndoCommand {
public:
[[nodiscard]]
virtual TileSheet::SubSheetIdx const &subsheetIdx() const noexcept = 0;
virtual TileSheet::SubSheetIdx const&subsheetIdx() const noexcept = 0;
};
}

4
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/cutpastecommand.cpp
View File

@@ -48,7 +48,7 @@ CutPasteCommand::CutPasteCommand(
ox::Error CutPasteCommand::redo() noexcept {
auto &subsheet = getSubSheet(m_img, m_subSheetIdx);
for (auto const &c : m_changes) {
for (const auto &c : m_changes) {
subsheet.pixels[c.idx] = static_cast<uint8_t>(c.newPalIdx);
}
return {};
@@ -56,7 +56,7 @@ ox::Error CutPasteCommand::redo() noexcept {
ox::Error CutPasteCommand::undo() noexcept {
auto &subsheet = getSubSheet(m_img, m_subSheetIdx);
for (auto const &c : m_changes) {
for (const auto &c : m_changes) {
subsheet.pixels[c.idx] = static_cast<uint8_t>(c.oldPalIdx);
}
return {};

10
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/cutpastecommand.hpp
View File

@@ -30,10 +30,10 @@ class TileSheetClipboard: public turbine::ClipboardObject<TileSheetClipboard> {
ox::Vector<Pixel> m_pixels;
public:
void addPixel(ox::Point const &pt, uint16_t colorIdx) noexcept;
void addPixel(ox::Point const&pt, uint16_t colorIdx) noexcept;
[[nodiscard]]
ox::Vector<Pixel> const &pixels() const noexcept;
ox::Vector<Pixel> const&pixels() const noexcept;
};
OX_MODEL_BEGIN(TileSheetClipboard::Pixel)
@@ -67,9 +67,9 @@ class CutPasteCommand: public TileSheetCommand {
CommandId commandId,
TileSheet &img,
TileSheet::SubSheetIdx subSheetIdx,
ox::Point const &dstStart,
ox::Point const&dstStart,
ox::Point dstEnd,
TileSheetClipboard const &cb);
TileSheetClipboard const&cb);
ox::Error redo() noexcept final;
@@ -79,7 +79,7 @@ class CutPasteCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/deletetilescommand.cpp
View File

@@ -66,7 +66,7 @@ int DeleteTilesCommand::commandId() const noexcept {
return static_cast<int>(CommandId::DeleteTile);
}
TileSheet::SubSheetIdx const &DeleteTilesCommand::subsheetIdx() const noexcept {
TileSheet::SubSheetIdx const&DeleteTilesCommand::subsheetIdx() const noexcept {
return m_idx;
}

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/deletetilescommand.hpp
View File

@@ -31,7 +31,7 @@ class DeleteTilesCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

12
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/drawcommand.cpp
View File

@@ -74,7 +74,7 @@ DrawCommand::DrawCommand(
DrawCommand::DrawCommand(
TileSheet &img,
TileSheet::SubSheetIdx subSheetIdx,
ox::SpanView<std::size_t> const &idxList,
ox::SpanView<std::size_t> const&idxList,
int const palIdx) noexcept:
m_img(img),
m_subSheetIdx(std::move(subSheetIdx)),
@@ -90,7 +90,7 @@ bool DrawCommand::append(std::size_t const idx) noexcept {
if (m_changes.back().value->idx != idx && getPixel(subsheet, idx) != m_palIdx) {
// duplicate entries are bad
auto existing = find_if(
m_changes.cbegin(), m_changes.cend(), [idx](auto const &c) {
m_changes.cbegin(), m_changes.cend(), [idx](auto const&c) {
return c.idx == idx;
});
if (existing == m_changes.cend()) {
@@ -102,7 +102,7 @@ bool DrawCommand::append(std::size_t const idx) noexcept {
return false;
}
bool DrawCommand::append(ox::SpanView<std::size_t> const &idxList) noexcept {
bool DrawCommand::append(ox::SpanView<std::size_t> const&idxList) noexcept {
auto out = false;
for (auto idx : idxList) {
out = append(idx) || out;
@@ -134,7 +134,7 @@ void DrawCommand::lineUpdate(ox::Point a, ox::Point b) noexcept {
ox::Error DrawCommand::redo() noexcept {
auto &subsheet = getSubSheet(m_img, m_subSheetIdx);
for (auto const &c : m_changes) {
for (auto const&c : m_changes) {
subsheet.pixels[c.idx] = static_cast<uint8_t>(m_palIdx);
}
return {};
@@ -142,7 +142,7 @@ ox::Error DrawCommand::redo() noexcept {
ox::Error DrawCommand::undo() noexcept {
auto &subsheet = getSubSheet(m_img, m_subSheetIdx);
for (auto const &c : m_changes) {
for (auto const&c : m_changes) {
subsheet.pixels[c.idx] = static_cast<uint8_t>(c.oldPalIdx);
}
return {};
@@ -152,7 +152,7 @@ int DrawCommand::commandId() const noexcept {
return static_cast<int>(CommandId::Draw);
}
TileSheet::SubSheetIdx const &DrawCommand::subsheetIdx() const noexcept {
TileSheet::SubSheetIdx const&DrawCommand::subsheetIdx() const noexcept {
return m_subSheetIdx;
}

6
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/drawcommand.hpp
View File

@@ -33,12 +33,12 @@ class DrawCommand: public TileSheetCommand {
DrawCommand(
TileSheet &img,
TileSheet::SubSheetIdx subSheetIdx,
ox::SpanView<std::size_t> const &idxList,
ox::SpanView<std::size_t> const&idxList,
int palIdx) noexcept;
bool append(std::size_t idx) noexcept;
bool append(ox::SpanView<std::size_t> const &idxList) noexcept;
bool append(ox::SpanView<std::size_t> const&idxList) noexcept;
void lineUpdate(ox::Point a, ox::Point b) noexcept;
@@ -50,7 +50,7 @@ class DrawCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
void finish() noexcept;

4
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/flipcommand.hpp
View File

@@ -30,7 +30,7 @@ class FlipXCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};
@@ -56,7 +56,7 @@ class FlipYCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/inserttilescommand.cpp
View File

@@ -62,7 +62,7 @@ int InsertTilesCommand::commandId() const noexcept {
return static_cast<int>(CommandId::InsertTile);
}
TileSheet::SubSheetIdx const &InsertTilesCommand::subsheetIdx() const noexcept {
TileSheet::SubSheetIdx const&InsertTilesCommand::subsheetIdx() const noexcept {
return m_idx;
}

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/inserttilescommand.hpp
View File

@@ -31,7 +31,7 @@ class InsertTilesCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/movesubsheetcommand.cpp
View File

@@ -33,7 +33,7 @@ int MoveSubSheetCommand::commandId() const noexcept {
return static_cast<int>(CommandId::MoveSubSheet);
}
TileSheet::SubSheetIdx const &MoveSubSheetCommand::subsheetIdx() const noexcept {
TileSheet::SubSheetIdx const&MoveSubSheetCommand::subsheetIdx() const noexcept {
return *m_active;
}

2
src/nostalgia/modules/gfx/src/studio/tilesheeteditor/commands/movesubsheetcommand.hpp
View File

@@ -26,7 +26,7 @@ class MoveSubSheetCommand: public TileSheetCommand {
int commandId() const noexcept final;
[[nodiscard]]
TileSheet::SubSheetIdx const &subsheetIdx() const noexcept override;
TileSheet::SubSheetIdx const&subsheetIdx() const noexcept override;
};

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