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#pragma once
#include <array>
#include <glad/gl.h>
#include <glm/common.hpp>
#include <glm/fwd.hpp>
#include <glm/gtc/type_ptr.hpp>
#include <span>
template<typename T> struct gl_traits;
struct gl_traits_base {
static constexpr GLint size {1};
};
struct gl_traits_float : public gl_traits_base {
static constexpr auto vertexAttribFunc {
[](GLuint index, GLint size, GLenum type, GLsizei stride, const void * pointer) -> GLuint {
glVertexAttribPointer(index, size, type, GL_FALSE, stride, pointer);
return 1;
}};
};
struct gl_traits_longfloat : public gl_traits_base {
static constexpr auto vertexAttribFunc {
[](GLuint index, GLint size, GLenum type, GLsizei stride, const void * pointer) -> GLuint {
glVertexAttribLPointer(index, size, type, stride, pointer);
return 1;
}};
};
struct gl_traits_integer : public gl_traits_base {
static constexpr auto vertexAttribFunc {
[](GLuint index, GLint size, GLenum type, GLsizei stride, const void * pointer) -> GLuint {
glVertexAttribIPointer(index, size, type, stride, pointer);
return 1;
}};
};
template<> struct gl_traits<glm::f32> : public gl_traits_float {
static constexpr GLenum type {GL_FLOAT};
static constexpr auto glUniformFunc {&glUniform1f};
static constexpr std::array glUniformvFunc {&glUniform1fv, &glUniform2fv, &glUniform3fv, &glUniform4fv};
static constexpr std::array glUniformmFunc {&glUniformMatrix2fv, &glUniformMatrix3fv, &glUniformMatrix4fv};
static constexpr auto glTexParameterFunc {&glTexParameterf};
static constexpr auto glTexParameterfFunc {&glTexParameterfv};
};
template<> struct gl_traits<glm::f64> : public gl_traits_longfloat {
static constexpr GLenum type {GL_DOUBLE};
};
template<> struct gl_traits<glm::int8> : public gl_traits_integer {
static constexpr GLenum type {GL_BYTE};
};
template<> struct gl_traits<glm::int16> : public gl_traits_integer {
static constexpr GLenum type {GL_SHORT};
};
template<> struct gl_traits<glm::int32> : public gl_traits_integer {
static constexpr GLenum type {GL_INT};
static constexpr auto glUniformFunc {&glUniform1i};
static constexpr std::array glUniformvFunc {&glUniform1iv, &glUniform2iv, &glUniform3iv, &glUniform4iv};
static constexpr auto glTexParameterFunc {&glTexParameteri};
static constexpr auto glTexParameterfFunc {&glTexParameteriv};
};
template<> struct gl_traits<glm::uint8> : public gl_traits_integer {
static constexpr GLenum type {GL_UNSIGNED_BYTE};
};
template<> struct gl_traits<glm::uint16> : public gl_traits_integer {
static constexpr GLenum type {GL_UNSIGNED_SHORT};
};
template<> struct gl_traits<glm::uint32> : public gl_traits_integer {
static constexpr GLenum type {GL_UNSIGNED_INT};
static constexpr auto glUniformFunc {&glUniform1ui};
static constexpr std::array<decltype(&glUniform1uiv), 5> glUniformvFunc {
&glUniform1uiv, &glUniform2uiv, &glUniform3uiv, &glUniform4uiv};
};
template<typename T, std::size_t S> struct gl_traits<std::array<T, S>> : public gl_traits<T> {
static constexpr GLint size {S * gl_traits<T>::size};
static constexpr auto vertexAttribFunc {
[](GLuint index, GLint, GLenum type, GLsizei stride, const void * pointer) -> GLuint {
const auto base = static_cast<const T *>(pointer);
for (GLuint e = 0; e < S; e++) {
glVertexAttribPointer(index + e, gl_traits<T>::size, type, GL_FALSE, stride, base + e);
}
return S;
}};
};
template<glm::length_t L, typename T, glm::qualifier Q> struct gl_traits<glm::vec<L, T, Q>> : public gl_traits<T> {
static constexpr GLint size {L};
};
template<glm::length_t C, glm::length_t R, typename T, glm::qualifier Q>
struct gl_traits<glm::mat<C, R, T, Q>> : public gl_traits<T> {
static constexpr GLint size {C * R};
static constexpr auto vertexAttribFunc {
[](GLuint index, GLint, GLenum type, GLsizei stride, const void * pointer) -> GLuint {
const auto base = static_cast<const T *>(pointer);
for (GLuint r = 0; r < R; r++) {
glVertexAttribPointer(index + r, C, type, GL_FALSE, stride, base + (r * C));
}
return R;
}};
};
template<typename T>
concept has_glUniform1 = requires { gl_traits<T>::glUniformFunc; };
template<typename T>
concept has_glUniformNv = requires { gl_traits<T>::glUniformvFunc; };
template<typename T>
concept has_glUniformMatrixNv = requires { gl_traits<T>::glUniformmFunc; };
template<typename T>
concept has_glTexParameter = requires { gl_traits<T>::glTexParameterFunc; };
template<typename T>
concept has_glTexParameterf = requires { gl_traits<T>::glTexParameterfFunc; };
template<has_glUniform1 T>
void
glUniform(GLint location, T v)
{
(*gl_traits<T>::glUniformFunc)(location, v);
}
template<glm::length_t L, has_glUniformNv T, glm::qualifier Q>
void
glUniform(GLint location, const glm::vec<L, T, Q> & v)
{
(*gl_traits<T>::glUniformvFunc[L - 1])(location, 1, glm::value_ptr(v));
}
template<glm::length_t L, has_glUniformNv T, glm::qualifier Q>
void
glUniform(GLint location, std::span<const glm::vec<L, T, Q>> v)
{
(*gl_traits<T>::glUniformvFunc[L - 1])(location, static_cast<GLsizei>(v.size()), glm::value_ptr(v.front()));
}
template<has_glUniformNv T>
void
glUniform(GLint location, std::span<const T> v)
{
(*gl_traits<T>::glUniformvFunc.front())(location, static_cast<GLsizei>(v.size()), v.data());
}
template<glm::length_t L, has_glUniformMatrixNv T, glm::qualifier Q>
void
glUniform(GLint location, const glm::mat<L, L, T, Q> & v)
{
(*gl_traits<T>::glUniformmFunc[L - 2])(location, 1, GL_FALSE, glm::value_ptr(v));
}
template<glm::length_t L, has_glUniformMatrixNv T, glm::qualifier Q>
void
glUniform(GLint location, std::span<const glm::mat<L, L, T, Q>> v)
{
(*gl_traits<T>::glUniformmFunc[L - 2])(
location, static_cast<GLsizei>(v.size()), GL_FALSE, glm::value_ptr(v.front()));
}
template<has_glTexParameter T>
void
glTexParameter(GLenum target, GLenum pname, T param)
{
(*gl_traits<T>::glTexParameterFunc)(target, pname, param);
}
template<glm::length_t L, has_glTexParameterf T, glm::qualifier Q>
void
glTexParameter(GLenum target, GLenum pname, const glm::vec<L, T, Q> & param)
{
(*gl_traits<T>::glTexParameterfFunc)(target, pname, glm::value_ptr(param));
}
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