Match and link mtx.c

Former-commit-id: 1c03ca2a2da0c77eb8525b93f69f3f3cee99287f
2023-10-20 15:08:06 -07:00 · 2023-10-20 15:08:06 -07:00 · 0972b17732
parent 2cead4e4c5
commit 0972b17732
4 changed files with 1570 additions and 68 deletions
--- a/configure.py
+++ b/configure.py
@ -1040,7 +1040,7 @@ config.libs = [
    DolphinLib(
        "mtx",
        [
-            Object(NonMatching, "Dolphin/mtx/mtx.c"),
+            Object(Matching, "Dolphin/mtx/mtx.c", cflags = [*cflags_base, "-fp_contract off"]),
            Object(NonMatching, "Dolphin/mtx/mtx44vec.c"),
            Object(NonMatching, "Dolphin/mtx/mtx44.c"),
            Object(NonMatching, "Dolphin/mtx/vec.c"),
--- a/include/dolphin/mtx.h
+++ b/include/dolphin/mtx.h
@ -1,30 +1,39 @@
 #ifndef _DOLPHIN_MTX
 #define _DOLPHIN_MTX

+#include <dolphin/mtx/GeoTypes.h>
 #include <dolphin/types.h>
-
 #ifdef __cplusplus
 extern "C" {
 #endif
+#define GEKKO
+#ifndef GEKKO
+#define MTX_USE_C
+#undef MTX_USE_PS
+#endif

-typedef f32 Mtx[3][4];
-typedef f32 (*MtxPtr)[4];
-typedef f32 ROMtx[4][3];
-typedef f32 (*ROMtxPtr)[3];
-typedef f32 Mtx44[4][4];
-typedef f32 (*Mtx44Ptr)[4];
+#if (!defined(MTX_USE_PS) && !defined(MTX_USE_C))
+#ifndef _DEBUG
+#define MTX_USE_PS
+#endif
+#endif
+
+
+#define MTX_PTR_OFFSET 3
+
+#define MTX44_PTR_OFFSET 4

 typedef struct {
-  f32 x, y, z;
-} Vec, *VecPtr;

-typedef struct {
-  s16 x, y, z;
-} S16Vec, *S16VecPtr;
+  u32 numMtx;
+  MtxPtr stackBase;
+  MtxPtr stackPtr;

-typedef struct {
-  f32 x, y, z, w;
-} Quaternion, *QuaternionPtr;
+} MtxStack, *MtxStackPtr;
+
+#define MTXDegToRad(a) ((a)*0.01745329252f)
+#define MTXRadToDeg(a) ((a)*57.29577951f)
+#define MTXRowCol(m, r, c) ((m)[(r)][(c)])

 void C_MTXIdentity(Mtx m);
 void C_MTXCopy(const Mtx src, Mtx dst);
@ -33,33 +42,8 @@ void C_MTXConcatArray(const Mtx a, const Mtx* srcBase, Mtx* dstBase, u32 count);
 void C_MTXTranspose(const Mtx src, Mtx xPose);
 u32 C_MTXInverse(const Mtx src, Mtx inv);
 u32 C_MTXInvXpose(const Mtx src, Mtx invX);
-void C_MTXMultVec(const Mtx m, const Vec* src, Vec* dst);
-void C_MTXMultVecArray(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
-void C_MTXMultVecSR(const Mtx m, const Vec* src, Vec* dst);
-void C_MTXMultVecArraySR(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
-void C_MTXQuat(Mtx m, const Quaternion* q);
-void C_MTXReflect(Mtx m, const Vec* p, const Vec* n);
-void C_MTXTrans(Mtx m, f32 xT, f32 yT, f32 zT);
-void C_MTXTransApply(const Mtx src, Mtx dst, f32 xT, f32 yT, f32 zT);
-void C_MTXScale(Mtx m, f32 xS, f32 yS, f32 zS);
-void C_MTXScaleApply(const Mtx src, Mtx dst, f32 xS, f32 yS, f32 zS);
-void C_MTXRotRad(Mtx m, char axis, f32 rad);
-void C_MTXRotTrig(Mtx m, char axis, f32 sinA, f32 cosA);
-void C_MTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
-void C_MTXLookAt(Mtx m, const Vec* camPos, const Vec* camUp, const Vec* target);
-void C_MTXFrustum(Mtx44 m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 f);
-void C_MTXPerspective(Mtx44 m, f32 fovY, f32 aspect, f32 n, f32 f);
-void C_MTXOrtho(Mtx44 m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 f);
-void C_MTXLightFrustum(Mtx m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 scaleS, f32 scaleT, f32 transS,
-                       f32 transT);

-void C_MTXLightPerspective(Mtx m, f32 fovY, f32 aspect, f32 scaleS, f32 scaleT, f32 transS,
-                           f32 transT);
-
-void C_MTXLightOrtho(Mtx m, f32 t, f32 b, f32 l, f32 r, f32 scaleS, f32 scaleT, f32 transS,
-                     f32 transT);
-
-#ifdef __MWERKS__
+#ifdef GEKKO
 void PSMTXIdentity(Mtx m);
 void PSMTXCopy(const Mtx src, Mtx dst);
 void PSMTXConcat(const Mtx a, const Mtx b, Mtx ab);
@ -67,22 +51,9 @@ void PSMTXConcatArray(const Mtx a, const Mtx* srcBase, Mtx* dstBase, u32 count);
 void PSMTXTranspose(const Mtx src, Mtx xPose);
 u32 PSMTXInverse(const Mtx src, Mtx inv);
 u32 PSMTXInvXpose(const Mtx src, Mtx invX);
-void PSMTXMultVec(const Mtx m, const Vec* src, Vec* dst);
-void PSMTXMultVecArray(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
-void PSMTXMultVecSR(const Mtx m, const Vec* src, Vec* dst);
-void PSMTXMultVecArraySR(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
-void PSMTXQuat(Mtx m, const Quaternion* q);
-void PSMTXReflect(Mtx m, const Vec* p, const Vec* n);
-void PSMTXTrans(Mtx m, f32 xT, f32 yT, f32 zT);
-void PSMTXTransApply(const Mtx src, Mtx dst, f32 xT, f32 yT, f32 zT);
-void PSMTXScale(Mtx m, f32 xS, f32 yS, f32 zS);
-void PSMTXScaleApply(const Mtx src, Mtx dst, f32 xS, f32 yS, f32 zS);
-void PSMTXRotRad(Mtx m, char axis, f32 rad);
-void PSMTXRotTrig(Mtx m, char axis, f32 sinA, f32 cosA);
-void PSMTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
 #endif

-#ifdef __MWERKS__
+#ifdef MTX_USE_PS
 #define MTXIdentity PSMTXIdentity
 #define MTXCopy PSMTXCopy
 #define MTXConcat PSMTXConcat
@ -90,10 +61,67 @@ void PSMTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
 #define MTXTranspose PSMTXTranspose
 #define MTXInverse PSMTXInverse
 #define MTXInvXpose PSMTXInvXpose
+#else
+#define MTXIdentity C_MTXIdentity
+#define MTXCopy C_MTXCopy
+#define MTXConcat C_MTXConcat
+#define MTXConcatArray C_MTXConcatArray
+#define MTXTranspose C_MTXTranspose
+#define MTXInverse C_MTXInverse
+#define MTXInvXpose C_MTXInvXpose
+#endif
+
+void C_MTXMultVec(const Mtx m, const Vec* src, Vec* dst);
+void C_MTXMultVecArray(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
+void C_MTXMultVecSR(const Mtx m, const Vec* src, Vec* dst);
+void C_MTXMultVecArraySR(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
+
+#ifdef GEKKO
+void PSMTXMultVec(const Mtx m, const Vec* src, Vec* dst);
+void PSMTXMultVecArray(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
+void PSMTXMultVecSR(const Mtx m, const Vec* src, Vec* dst);
+void PSMTXMultVecArraySR(const Mtx m, const Vec* srcBase, Vec* dstBase, u32 count);
+#endif
+
+#ifdef MTX_USE_PS
 #define MTXMultVec PSMTXMultVec
 #define MTXMultVecArray PSMTXMultVecArray
 #define MTXMultVecSR PSMTXMultVecSR
 #define MTXMultVecArraySR PSMTXMultVecArraySR
+#else // MTX_USE_C
+#define MTXMultVec C_MTXMultVec
+#define MTXMultVecArray C_MTXMultVecArray
+#define MTXMultVecSR C_MTXMultVecSR
+#define MTXMultVecArraySR C_MTXMultVecArraySR
+#endif
+
+void C_MTXQuat(Mtx m, const Quaternion* q);
+void C_MTXReflect(Mtx m, const Vec* p, const Vec* n);
+
+void C_MTXTrans(Mtx m, f32 xT, f32 yT, f32 zT);
+void C_MTXTransApply(const Mtx src, Mtx dst, f32 xT, f32 yT, f32 zT);
+void C_MTXScale(Mtx m, f32 xS, f32 yS, f32 zS);
+void C_MTXScaleApply(const Mtx src, Mtx dst, f32 xS, f32 yS, f32 zS);
+
+void C_MTXRotRad(Mtx m, char axis, f32 rad);
+void C_MTXRotTrig(Mtx m, char axis, f32 sinA, f32 cosA);
+void C_MTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
+
+#ifdef GEKKO
+void PSMTXQuat(Mtx m, const Quaternion* q);
+void PSMTXReflect(Mtx m, const Vec* p, const Vec* n);
+
+void PSMTXTrans(Mtx m, f32 xT, f32 yT, f32 zT);
+void PSMTXTransApply(const Mtx src, Mtx dst, f32 xT, f32 yT, f32 zT);
+void PSMTXScale(Mtx m, f32 xS, f32 yS, f32 zS);
+void PSMTXScaleApply(const Mtx src, Mtx dst, f32 xS, f32 yS, f32 zS);
+
+void PSMTXRotRad(Mtx m, char axis, f32 rad);
+void PSMTXRotTrig(Mtx m, char axis, f32 sinA, f32 cosA);
+void PSMTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
+#endif
+
+#ifdef MTX_USE_PS
 #define MTXQuat PSMTXQuat
 #define MTXReflect PSMTXReflect
 #define MTXTrans PSMTXTrans
@ -103,20 +131,11 @@ void PSMTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
 #define MTXRotRad PSMTXRotRad
 #define MTXRotTrig PSMTXRotTrig
 #define MTXRotAxisRad PSMTXRotAxisRad
+
 #define MTXRotDeg(m, axis, deg) PSMTXRotRad(m, axis, MTXDegToRad(deg))
 #define MTXRotAxisDeg(m, axis, deg) PSMTXRotAxisRad(m, axis, MTXDegToRad(deg))
-#else
-#define MTXIdentity C_MTXIdentity
-#define MTXCopy C_MTXCopy
-#define MTXConcat C_MTXConcat
-#define MTXConcatArray C_MTXConcatArray
-#define MTXTranspose C_MTXTranspose
-#define MTXInverse C_MTXInverse
-#define MTXInvXpose C_MTXInvXpose
-#define MTXMultVec C_MTXMultVec
-#define MTXMultVecArray C_MTXMultVecArray
-#define MTXMultVecSR C_MTXMultVecSR
-#define MTXMultVecArraySR C_MTXMultVecArraySR
+
+#else // MTX_USE_C
 #define MTXQuat C_MTXQuat
 #define MTXReflect C_MTXReflect
 #define MTXTrans C_MTXTrans
@ -126,18 +145,176 @@ void PSMTXRotAxisRad(Mtx m, const Vec* axis, f32 rad);
 #define MTXRotRad C_MTXRotRad
 #define MTXRotTrig C_MTXRotTrig
 #define MTXRotAxisRad C_MTXRotAxisRad
+
 #define MTXRotDeg(m, axis, deg) C_MTXRotRad(m, axis, MTXDegToRad(deg))
 #define MTXRotAxisDeg(m, axis, deg) C_MTXRotAxisRad(m, axis, MTXDegToRad(deg))
+
 #endif

+void C_MTXLookAt(Mtx m, const Point3d* camPos, const Vec* camUp, const Point3d* target);
+
 #define MTXLookAt C_MTXLookAt
+
+void C_MTXFrustum(Mtx44 m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 f);
+void C_MTXPerspective(Mtx44 m, f32 fovY, f32 aspect, f32 n, f32 f);
+void C_MTXOrtho(Mtx44 m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 f);
+
 #define MTXFrustum C_MTXFrustum
 #define MTXPerspective C_MTXPerspective
 #define MTXOrtho C_MTXOrtho
+
+void C_MTXLightFrustum(Mtx m, f32 t, f32 b, f32 l, f32 r, f32 n, f32 scaleS, f32 scaleT, f32 transS,
+                       f32 transT);
+
+void C_MTXLightPerspective(Mtx m, f32 fovY, f32 aspect, f32 scaleS, f32 scaleT, f32 transS,
+                           f32 transT);
+
+void C_MTXLightOrtho(Mtx m, f32 t, f32 b, f32 l, f32 r, f32 scaleS, f32 scaleT, f32 transS,
+                     f32 transT);
+
 #define MTXLightFrustum C_MTXLightFrustum
 #define MTXLightPerspective C_MTXLightPerspective
 #define MTXLightOrtho C_MTXLightOrtho

+void C_VECAdd(const Vec* a, const Vec* b, Vec* ab);
+void C_VECSubtract(const Vec* a, const Vec* b, Vec* a_b);
+void C_VECScale(const Vec* src, Vec* dst, f32 scale);
+void C_VECNormalize(const Vec* src, Vec* unit);
+f32 C_VECSquareMag(const Vec* v);
+f32 C_VECMag(const Vec* v);
+f32 C_VECDotProduct(const Vec* a, const Vec* b);
+void C_VECCrossProduct(const Vec* a, const Vec* b, Vec* axb);
+f32 C_VECSquareDistance(const Vec* a, const Vec* b);
+f32 C_VECDistance(const Vec* a, const Vec* b);
+void C_VECReflect(const Vec* src, const Vec* normal, Vec* dst);
+void C_VECHalfAngle(const Vec* a, const Vec* b, Vec* half);
+
+#ifdef GEKKO
+void PSVECAdd(const Vec* a, const Vec* b, Vec* ab);
+void PSVECSubtract(const Vec* a, const Vec* b, Vec* a_b);
+void PSVECScale(const Vec* src, Vec* dst, f32 scale);
+void PSVECNormalize(const Vec* src, Vec* unit);
+f32 PSVECSquareMag(const Vec* v);
+f32 PSVECMag(const Vec* v);
+f32 PSVECDotProduct(const Vec* a, const Vec* b);
+void PSVECCrossProduct(const Vec* a, const Vec* b, Vec* axb);
+f32 PSVECSquareDistance(const Vec* a, const Vec* b);
+f32 PSVECDistance(const Vec* a, const Vec* b);
+#endif
+
+// TODO
+#if defined( MTX_USE_PS) && 0
+#define VECAdd PSVECAdd
+#define VECSubtract PSVECSubtract
+#define VECScale PSVECScale
+#define VECNormalize PSVECNormalize
+#define VECSquareMag PSVECSquareMag
+#define VECMag PSVECMag
+#define VECDotProduct PSVECDotProduct
+#define VECCrossProduct PSVECCrossProduct
+#define VECSquareDistance PSVECSquareDistance
+#define VECDistance PSVECDistance
+#else // MTX_USE_C
+#define VECAdd C_VECAdd
+#define VECSubtract C_VECSubtract
+#define VECScale C_VECScale
+#define VECNormalize C_VECNormalize
+#define VECSquareMag C_VECSquareMag
+#define VECMag C_VECMag
+#define VECDotProduct C_VECDotProduct
+#define VECCrossProduct C_VECCrossProduct
+#define VECSquareDistance C_VECSquareDistance
+#define VECDistance C_VECDistance
+#endif
+
+#define VECReflect C_VECReflect
+#define VECHalfAngle C_VECHalfAngle
+
+void C_QUATAdd(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void C_QUATSubtract(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void C_QUATMultiply(const Quaternion* p, const Quaternion* q, Quaternion* pq);
+void C_QUATDivide(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void C_QUATScale(const Quaternion* q, Quaternion* r, f32 scale);
+f32 C_QUATDotProduct(const Quaternion* p, const Quaternion* q);
+void C_QUATNormalize(const Quaternion* src, Quaternion* unit);
+void C_QUATInverse(const Quaternion* src, Quaternion* inv);
+void C_QUATExp(const Quaternion* q, Quaternion* r);
+void C_QUATLogN(const Quaternion* q, Quaternion* r);
+
+void C_QUATMakeClosest(const Quaternion* q, const Quaternion* qto, Quaternion* r);
+void C_QUATRotAxisRad(Quaternion* r, const Vec* axis, f32 rad);
+void C_QUATMtx(Quaternion* r, const Mtx m);
+
+void C_QUATLerp(const Quaternion* p, const Quaternion* q, Quaternion* r, f32 t);
+void C_QUATSlerp(const Quaternion* p, const Quaternion* q, Quaternion* r, f32 t);
+void C_QUATSquad(const Quaternion* p, const Quaternion* a, const Quaternion* b, const Quaternion* q,
+                 Quaternion* r, f32 t);
+void C_QUATCompA(const Quaternion* qprev, const Quaternion* q, const Quaternion* qnext,
+                 Quaternion* a);
+
+#ifdef GEKKO
+void PSQUATAdd(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void PSQUATSubtract(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void PSQUATMultiply(const Quaternion* p, const Quaternion* q, Quaternion* pq);
+void PSQUATDivide(const Quaternion* p, const Quaternion* q, Quaternion* r);
+void PSQUATScale(const Quaternion* q, Quaternion* r, f32 scale);
+f32 PSQUATDotProduct(const Quaternion* p, const Quaternion* q);
+void PSQUATNormalize(const Quaternion* src, Quaternion* unit);
+void PSQUATInverse(const Quaternion* src, Quaternion* inv);
+#endif
+
+#ifdef MTX_USE_PS
+#define QUATAdd PSQUATAdd
+#define QUATSubtract PSQUATSubtract
+#define QUATMultiply PSQUATMultiply
+#define QUATDivide PSQUATDivide
+#define QUATScale PSQUATScale
+#define QUATDotProduct PSQUATDotProduct
+#define QUATNormalize PSQUATNormalize
+#define QUATInverse PSQUATInverse
+#else // MTX_USE_C
+#define QUATAdd C_QUATAdd
+#define QUATSubtract C_QUATSubtract
+#define QUATMultiply C_QUATMultiply
+#define QUATDivide C_QUATDivide
+#define QUATScale C_QUATScale
+#define QUATDotProduct C_QUATDotProduct
+#define QUATNormalize C_QUATNormalize
+#define QUATInverse C_QUATInverse
+#endif
+
+#define QUATExp C_QUATExp
+#define QUATLogN C_QUATLogN
+#define QUATMakeClosest C_QUATMakeClosest
+#define QUATRotAxisRad C_QUATRotAxisRad
+#define QUATMtx C_QUATMtx
+#define QUATLerp C_QUATLerp
+#define QUATSlerp C_QUATSlerp
+#define QUATSquad C_QUATSquad
+#define QUATCompA C_QUATCompA
+
+#ifdef GEKKO
+void PSMTXReorder(const Mtx src, ROMtx dest);
+void PSMTXROMultVecArray(const ROMtx m, const Vec* srcBase, Vec* dstBase, u32 count);
+void PSMTXROSkin2VecArray(const ROMtx m0, const ROMtx m1, const f32* wtBase, const Vec* srcBase,
+                          Vec* dstBase, u32 count);
+void PSMTXMultS16VecArray(const Mtx m, const S16Vec* srcBase, Vec* dstBase, u32 count);
+void PSMTXROMultS16VecArray(const ROMtx m, const S16Vec* srcBase, Vec* dstBase, u32 count);
+#endif
+
+void MTXInitStack(MtxStack* sPtr, u32 numMtx);
+MtxPtr MTXPush(MtxStack* sPtr, const Mtx m);
+MtxPtr MTXPushFwd(MtxStack* sPtr, const Mtx m);
+MtxPtr MTXPushInv(MtxStack* sPtr, const Mtx m);
+MtxPtr MTXPushInvXpose(MtxStack* sPtr, const Mtx m);
+MtxPtr MTXPop(MtxStack* sPtr);
+MtxPtr MTXGetStackPtr(const MtxStack* sPtr);
+
+#define MTXAllocStack(sPtr, numMtx)                                                                \
+  (((MtxStackPtr)(sPtr))->stackBase = (MtxPtr)OSAlloc(((numMtx) * sizeof(Mtx))))
+
+#define MTXFreeStack(sPtr) (OSFree((void*)(((MtxStackPtr)(sPtr))->stackBase)))
+
 #ifdef __cplusplus
 }
 #endif
--- a/include/dolphin/mtx/GeoTypes.h
+++ b/include/dolphin/mtx/GeoTypes.h
@ -0,0 +1,39 @@
+#ifndef _DOLPHIN_GEOTYPES
+#define _DOLPHIN_GEOTYPES
+
+#include <dolphin/types.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+typedef struct {
+  f32 x, y, z;
+} Vec, *VecPtr, Point3d, *Point3dPtr;
+
+typedef struct {
+  s16 x;
+  s16 y;
+  s16 z;
+} S16Vec, *S16VecPtr;
+
+typedef struct {
+  f32 x, y, z, w;
+} Quaternion, *QuaternionPtr, Qtrn, *QtrnPtr;
+
+typedef f32 Mtx[3][4];
+
+typedef f32 (*MtxPtr)[4];
+
+typedef f32 ROMtx[4][3];
+
+typedef f32 (*ROMtxPtr)[3];
+
+typedef f32 Mtx44[4][4];
+
+typedef f32 (*Mtx44Ptr)[4];
+#ifdef __cplusplus
+}
+#endif
+
+#endif // _DOLPHIN_GEOTYPES
--- a/src/Dolphin/mtx/mtx.c
+++ b/src/Dolphin/mtx/mtx.c