isle-portable/3rdparty/d3drm/math.c

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Fix mingw build + copy d3drm from wine (#25) * Fix engineConfig declaration crossing jump This fixes the following error: ``` /src/isle-portable/LEGO1/omni/src/audio/mxsoundmanager.cpp: In member function 'virtual MxResult MxSoundManager::Create(MxU32, MxBool)': /src/isle-portable/LEGO1/omni/src/audio/mxsoundmanager.cpp:119:1: error: jump to label 'done' 119 | done: | ^~~~ /src/isle-portable/LEGO1/omni/src/audio/mxsoundmanager.cpp:78:22: note: from here 78 | goto done; | ^~~~ /src/isle-portable/LEGO1/omni/src/audio/mxsoundmanager.cpp:84:26: note: crosses initialization of 'ma_engine_config engineConfig' 84 | ma_engine_config engineConfig = ma_engine_config_init(); | ^~~~~~~~~~~~ ``` * Fix 'invalid conversion from 'SDL_FunctionPointer' {aka 'void (*)()'} to 'void*' * /SAFESEH:NO is a VC thing * SDL3 is still instable * Cannot forward declare and use enum * Remove MusicManager from public LEGO1.DLL interface * Copy d3d from wine git 6c5d17af07a318d754c0c21023b2d162a0d3725d * Build d3drm-wine with 32-bit mingw * cmake: move 3rd party targets to cmake script in 3rdparty directory * cmake: bump minimum required CMake version to 3.25 to allow adding a subproject with SYSTEM automatically applied An alternative would be to use SYSTEM in target_include_directories in the 3rd party cmake script. * Add a minimal Findiniparser.cmake (not all distributions carry the upstream iniparser-config.cmake files) * Add wine's d3drm headers * cmake: merge ISLE_USE_DX5_LIBS into ISLE_USE_DX5 * cmake: Build all shared libraries in the binary output directory (to avoid PATH issues) * ci: enable msys2 mingw32 build * Disable clang-tidy on d3drm wine * Thread functions must have SDLCALL call convention * cmake: disable clang-tidy for miniaudio and libsmacker as well * Hopefully fix c++ format and skip ncc naming violation * clang-format violations keep up popping out of nowhere * No need for lego/legoomni/include * ncc: define SDLCALL as empty instead
2024-06-24 10:25:51 -04:00
/*
* Copyright 2007 David Adam
* Copyright 2007 Vijay Kiran Kamuju
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "d3drm_private.h"
/* Create a RGB color from its components */
D3DCOLOR WINAPI D3DRMCreateColorRGB(D3DVALUE red, D3DVALUE green, D3DVALUE blue)
{
return D3DRMCreateColorRGBA(red, green, blue, 1.0f);
}
/* Create a RGBA color from its components */
D3DCOLOR WINAPI D3DRMCreateColorRGBA(D3DVALUE red, D3DVALUE green, D3DVALUE blue, D3DVALUE alpha)
{
D3DCOLOR color;
d3drm_set_color(&color, red, green, blue, alpha);
return color;
}
/* Determine the alpha part of a color */
D3DVALUE WINAPI D3DRMColorGetAlpha(D3DCOLOR color)
{
return (RGBA_GETALPHA(color)/255.0);
}
/* Determine the blue part of a color */
D3DVALUE WINAPI D3DRMColorGetBlue(D3DCOLOR color)
{
return (RGBA_GETBLUE(color)/255.0);
}
/* Determine the green part of a color */
D3DVALUE WINAPI D3DRMColorGetGreen(D3DCOLOR color)
{
return (RGBA_GETGREEN(color)/255.0);
}
/* Determine the red part of a color */
D3DVALUE WINAPI D3DRMColorGetRed(D3DCOLOR color)
{
return (RGBA_GETRED(color)/255.0);
}
/* Product of 2 quaternions */
D3DRMQUATERNION * WINAPI D3DRMQuaternionMultiply(D3DRMQUATERNION *q, D3DRMQUATERNION *a, D3DRMQUATERNION *b)
{
D3DRMQUATERNION temp;
D3DVECTOR cross_product;
D3DRMVectorCrossProduct(&cross_product, &a->v, &b->v);
temp.s = a->s * b->s - D3DRMVectorDotProduct(&a->v, &b->v);
temp.v.x = a->s * b->v.x + b->s * a->v.x + cross_product.x;
temp.v.y = a->s * b->v.y + b->s * a->v.y + cross_product.y;
temp.v.z = a->s * b->v.z + b->s * a->v.z + cross_product.z;
*q = temp;
return q;
}
/* Matrix for the Rotation that a unit quaternion represents */
void WINAPI D3DRMMatrixFromQuaternion(D3DRMMATRIX4D m, D3DRMQUATERNION *q)
{
D3DVALUE w,x,y,z;
w = q->s;
x = q->v.x;
y = q->v.y;
z = q->v.z;
m[0][0] = 1.0-2.0*(y*y+z*z);
m[1][1] = 1.0-2.0*(x*x+z*z);
m[2][2] = 1.0-2.0*(x*x+y*y);
m[1][0] = 2.0*(x*y+z*w);
m[0][1] = 2.0*(x*y-z*w);
m[2][0] = 2.0*(x*z-y*w);
m[0][2] = 2.0*(x*z+y*w);
m[2][1] = 2.0*(y*z+x*w);
m[1][2] = 2.0*(y*z-x*w);
m[3][0] = 0.0;
m[3][1] = 0.0;
m[3][2] = 0.0;
m[0][3] = 0.0;
m[1][3] = 0.0;
m[2][3] = 0.0;
m[3][3] = 1.0;
}
/* Return a unit quaternion that represents a rotation of an angle around an axis */
D3DRMQUATERNION * WINAPI D3DRMQuaternionFromRotation(D3DRMQUATERNION *q, D3DVECTOR *v, D3DVALUE theta)
{
q->s = cos(theta/2.0);
D3DRMVectorScale(&q->v, D3DRMVectorNormalize(v), sin(theta/2.0));
return q;
}
/* Interpolation between two quaternions */
D3DRMQUATERNION * WINAPI D3DRMQuaternionSlerp(D3DRMQUATERNION *q,
D3DRMQUATERNION *a, D3DRMQUATERNION *b, D3DVALUE alpha)
{
D3DVALUE dot, epsilon, temp, theta, u;
D3DVECTOR v1, v2;
dot = a->s * b->s + D3DRMVectorDotProduct(&a->v, &b->v);
epsilon = 1.0f;
temp = 1.0f - alpha;
u = alpha;
if (dot < 0.0)
{
epsilon = -1.0;
dot = -dot;
}
if( 1.0f - dot > 0.001f )
{
theta = acos(dot);
temp = sin(theta * temp) / sin(theta);
u = sin(theta * alpha) / sin(theta);
}
q->s = temp * a->s + epsilon * u * b->s;
D3DRMVectorScale(&v1, &a->v, temp);
D3DRMVectorScale(&v2, &b->v, epsilon * u);
D3DRMVectorAdd(&q->v, &v1, &v2);
return q;
}
/* Add Two Vectors */
D3DVECTOR * WINAPI D3DRMVectorAdd(D3DVECTOR *d, D3DVECTOR *s1, D3DVECTOR *s2)
{
D3DVECTOR temp;
temp.x=s1->x + s2->x;
temp.y=s1->y + s2->y;
temp.z=s1->z + s2->z;
*d = temp;
return d;
}
/* Subtract Two Vectors */
D3DVECTOR * WINAPI D3DRMVectorSubtract(D3DVECTOR *d, D3DVECTOR *s1, D3DVECTOR *s2)
{
D3DVECTOR temp;
temp.x=s1->x - s2->x;
temp.y=s1->y - s2->y;
temp.z=s1->z - s2->z;
*d = temp;
return d;
}
/* Cross Product of Two Vectors */
D3DVECTOR * WINAPI D3DRMVectorCrossProduct(D3DVECTOR *d, D3DVECTOR *s1, D3DVECTOR *s2)
{
D3DVECTOR temp;
temp.x=s1->y * s2->z - s1->z * s2->y;
temp.y=s1->z * s2->x - s1->x * s2->z;
temp.z=s1->x * s2->y - s1->y * s2->x;
*d = temp;
return d;
}
/* Dot Product of Two vectors */
D3DVALUE WINAPI D3DRMVectorDotProduct(D3DVECTOR *s1, D3DVECTOR *s2)
{
D3DVALUE dot_product;
dot_product=s1->x * s2->x + s1->y * s2->y + s1->z * s2->z;
return dot_product;
}
/* Norm of a vector */
D3DVALUE WINAPI D3DRMVectorModulus(D3DVECTOR *v)
{
D3DVALUE result;
result=sqrt(v->x * v->x + v->y * v->y + v->z * v->z);
return result;
}
/* Normalize a vector. Returns (1,0,0) if INPUT is the NULL vector. */
D3DVECTOR * WINAPI D3DRMVectorNormalize(D3DVECTOR *u)
{
D3DVALUE modulus = D3DRMVectorModulus(u);
if(modulus)
{
D3DRMVectorScale(u,u,1.0/modulus);
}
else
{
u->x=1.0;
u->y=0.0;
u->z=0.0;
}
return u;
}
/* Returns a random unit vector */
D3DVECTOR * WINAPI D3DRMVectorRandom(D3DVECTOR *d)
{
d->x = rand();
d->y = rand();
d->z = rand();
D3DRMVectorNormalize(d);
return d;
}
/* Reflection of a vector on a surface */
D3DVECTOR * WINAPI D3DRMVectorReflect(D3DVECTOR *r, D3DVECTOR *ray, D3DVECTOR *norm)
{
D3DVECTOR sca, temp;
D3DRMVectorSubtract(&temp, D3DRMVectorScale(&sca, norm, 2.0*D3DRMVectorDotProduct(ray,norm)), ray);
*r = temp;
return r;
}
/* Rotation of a vector */
D3DVECTOR * WINAPI D3DRMVectorRotate(D3DVECTOR *r, D3DVECTOR *v, D3DVECTOR *axis, D3DVALUE theta)
{
D3DRMQUATERNION quaternion1, quaternion2, quaternion3;
D3DVECTOR norm;
quaternion1.s = cos(theta * 0.5f);
quaternion2.s = cos(theta * 0.5f);
norm = *D3DRMVectorNormalize(axis);
D3DRMVectorScale(&quaternion1.v, &norm, sin(theta * 0.5f));
D3DRMVectorScale(&quaternion2.v, &norm, -sin(theta * 0.5f));
quaternion3.s = 0.0;
quaternion3.v = *v;
D3DRMQuaternionMultiply(&quaternion1, &quaternion1, &quaternion3);
D3DRMQuaternionMultiply(&quaternion1, &quaternion1, &quaternion2);
*r = *D3DRMVectorNormalize(&quaternion1.v);
return r;
}
/* Scale a vector */
D3DVECTOR * WINAPI D3DRMVectorScale(D3DVECTOR *d, D3DVECTOR *s, D3DVALUE factor)
{
D3DVECTOR temp;
temp.x=factor * s->x;
temp.y=factor * s->y;
temp.z=factor * s->z;
*d = temp;
return d;
}