aurora/lib/dolphin/GXTransform.cpp

112 lines
3.7 KiB
C++

#include "gx.hpp"
#include <cfloat>
constexpr aurora::Mat4x4<float> DepthCorrect{
{1.f, 0.f, 0.f, 0.f},
{0.f, 1.f, 0.f, 0.f},
{0.f, 0.f, 1.f + FLT_EPSILON, 0.f},
{0.f, 0.f, 1.f, 1.f},
};
void GXSetProjection(const void* mtx_, GXProjectionType type) {
const auto& mtx = *reinterpret_cast<const aurora::Mat4x4<float>*>(mtx_);
g_gxState.origProj = mtx;
g_gxState.projType = type;
#ifdef AURORA_NATIVE_MATRIX
update_gx_state(g_gxState.proj, DepthCorrect * mtx);
#else
update_gx_state(g_gxState.proj, DepthCorrect * mtx.transpose());
#endif
}
// TODO GXSetProjectionv
void GXLoadPosMtxImm(const void* mtx_, u32 id) {
CHECK(id >= GX_PNMTX0 && id <= GX_PNMTX9, "invalid pn mtx {}", static_cast<int>(id));
auto& state = g_gxState.pnMtx[id / 3];
#ifdef AURORA_NATIVE_MATRIX
const auto& mtx = *reinterpret_cast<const aurora::Mat4x4<float>*>(mtx_);
update_gx_state(state.pos, mtx);
#else
const auto* mtx = reinterpret_cast<const aurora::Mat3x4<float>*>(mtx_);
update_gx_state(state.pos, mtx->toTransposed4x4());
#endif
}
// TODO GXLoadPosMtxIndx
void GXLoadNrmMtxImm(const void* mtx_, u32 id) {
CHECK(id >= GX_PNMTX0 && id <= GX_PNMTX9, "invalid pn mtx {}", static_cast<int>(id));
auto& state = g_gxState.pnMtx[id / 3];
#ifdef AURORA_NATIVE_MATRIX
const auto& mtx = *reinterpret_cast<const aurora::Mat4x4<float>*>(mtx_);
update_gx_state(state.nrm, mtx);
#else
const auto* mtx = reinterpret_cast<const aurora::Mat3x4<float>*>(mtx_);
update_gx_state(state.nrm, mtx->toTransposed4x4());
#endif
}
// TODO GXLoadNrmMtxImm3x3
// TODO GXLoadNrmMtxIndx3x3
void GXSetCurrentMtx(u32 id) {
CHECK(id >= GX_PNMTX0 && id <= GX_PNMTX9, "invalid pn mtx {}", static_cast<int>(id));
update_gx_state(g_gxState.currentPnMtx, id / 3);
}
void GXLoadTexMtxImm(const void* mtx_, u32 id, GXTexMtxType type) {
CHECK((id >= GX_TEXMTX0 && id <= GX_IDENTITY) || (id >= GX_PTTEXMTX0 && id <= GX_PTIDENTITY), "invalid tex mtx {}",
static_cast<int>(id));
if (id >= GX_PTTEXMTX0) {
CHECK(type == GX_MTX3x4, "invalid pt mtx type {}", type);
const auto idx = (id - GX_PTTEXMTX0) / 3;
#ifdef AURORA_NATIVE_MATRIX
const auto& mtx = *reinterpret_cast<const aurora::Mat4x4<float>*>(mtx_);
update_gx_state<aurora::Mat4x4<float>>(g_gxState.ptTexMtxs[idx], mtx);
#else
const auto& mtx = *reinterpret_cast<const aurora::Mat3x4<float>*>(mtx_);
update_gx_state<aurora::Mat4x4<float>>(g_gxState.ptTexMtxs[idx], mtx.toTransposed4x4());
#endif
} else {
const auto idx = (id - GX_TEXMTX0) / 3;
switch (type) {
case GX_MTX3x4: {
#ifdef AURORA_NATIVE_MATRIX
const auto& mtx = *reinterpret_cast<const aurora::Mat4x4<float>*>(mtx_);
update_gx_state<aurora::gfx::gx::TexMtxVariant>(g_gxState.texMtxs[idx], mtx);
#else
const auto& mtx = *reinterpret_cast<const aurora::Mat3x4<float>*>(mtx_);
update_gx_state<aurora::gfx::gx::TexMtxVariant>(g_gxState.texMtxs[idx], mtx.toTransposed4x4());
#endif
break;
}
case GX_MTX2x4: {
const auto& mtx = *reinterpret_cast<const aurora::Mat4x2<float>*>(mtx_);
#ifdef AURORA_NATIVE_MATRIX
update_gx_state<aurora::gfx::gx::TexMtxVariant>(g_gxState.texMtxs[idx], mtx);
#else
update_gx_state<aurora::gfx::gx::TexMtxVariant>(g_gxState.texMtxs[idx], mtx.transpose());
#endif
break;
}
}
}
}
// TODO GXLoadTexMtxIndx
// TODO GXProject
void GXSetViewport(float left, float top, float width, float height, float nearZ, float farZ) {
aurora::gfx::set_viewport(left, top, width, height, nearZ, farZ);
}
void GXSetViewportJitter(float left, float top, float width, float height, float nearZ, float farZ, u32 field) {
aurora::gfx::set_viewport(left, top, width, height, nearZ, farZ);
}
// TODO GXSetZScaleOffset
// TODO GXSetScissorBoxOffset
// TODO GXSetClipMode