Refactor animation system
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parent
4bc75f43a5
commit
9ae3857fad
3
Makefile
3
Makefile
@ -21,6 +21,9 @@ TIM/bg_camPath_002.tim \
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TIM/bg_camPath_003.tim \
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TIM/bg_camPath_003.tim \
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TIM/bg_camPath_004.tim \
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TIM/bg_camPath_004.tim \
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TIM/bg_camPath_005.tim \
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TIM/bg_camPath_005.tim \
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TIM/ground.tim \
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TIM/trees.tim \
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TIM/woods.tim \
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VAG/hello.vag \
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VAG/hello.vag \
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VAG/poly.vag \
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VAG/poly.vag \
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VAG/0_come.vag \
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VAG/0_come.vag \
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BIN
TIM/ground.tim
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BIN
TIM/ground.tim
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BIN
TIM/trees.tim
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BIN
TIM/trees.tim
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BIN
TIM/woods.tim
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BIN
TIM/woods.tim
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@ -5,6 +5,7 @@
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struct BODY;
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struct BODY;
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struct VANIM;
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struct VANIM;
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struct MESH_ANIMS_TRACKS;
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struct PRIM;
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struct PRIM;
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struct MESH;
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struct MESH;
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struct CAMPOS;
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struct CAMPOS;
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@ -37,13 +38,20 @@ typedef struct BODY {
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typedef struct VANIM {
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typedef struct VANIM {
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int nframes; // number of frames e.g 20
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int nframes; // number of frames e.g 20
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int nvert; // number of vertices e.g 21
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int nvert; // number of vertices e.g 21
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int cursor; // anim cursor
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int cursor; // anim cursor : -1 == not playing, n>=0 == current frame number
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int lerpCursor; // anim cursor
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int lerpCursor; // anim cursor
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int loop; // loop anim : -1 == infinite, n>0 == play n times
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int dir; // playback direction (1 or -1)
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int dir; // playback direction (1 or -1)
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int pingpong; // ping pong animation (A>B>A)
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int interpolate; // use lerp to interpolate keyframes
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int interpolate; // use lerp to interpolate keyframes
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SVECTOR data[]; // vertex pos as SVECTORs e.g 20 * 21 SVECTORS
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SVECTOR data[]; // vertex pos as SVECTORs e.g 20 * 21 SVECTORS
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} VANIM;
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} VANIM;
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typedef struct MESH_ANIMS_TRACKS {
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u_short index;
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VANIM * strips[];
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} MESH_ANIMS_TRACKS;
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typedef struct PRIM {
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typedef struct PRIM {
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VECTOR order;
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VECTOR order;
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int code; // Same as POL3/POL4 codes : Code (F3 = 1, FT3 = 2, G3 = 3,
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int code; // Same as POL3/POL4 codes : Code (F3 = 1, FT3 = 2, G3 = 3,
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@ -73,7 +81,8 @@ typedef struct MESH {
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long p;
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long p;
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long OTz;
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long OTz;
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BODY * body;
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BODY * body;
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VANIM * anim;
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MESH_ANIMS_TRACKS * anim_tracks;
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VANIM * currentAnim;
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struct NODE * node;
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struct NODE * node;
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VECTOR pos2D;
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VECTOR pos2D;
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} MESH;
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} MESH;
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@ -25,3 +25,5 @@ long interpolateQuad(POLY_GT4 * poly4, MESH * mesh, long t);
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void drawBG(CAMANGLE * camPtr, char ** nextpri, u_long * otdisc, char * db);
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void drawBG(CAMANGLE * camPtr, char ** nextpri, u_long * otdisc, char * db);
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// Rendering
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// Rendering
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void renderScene(LEVEL * curLvl, CAMERA * camera, int * camMode, char ** nextpri, u_long * ot, u_long * otdisc, char * db, DRAWENV * draw, short curCamAngle, int atime);
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void renderScene(LEVEL * curLvl, CAMERA * camera, int * camMode, char ** nextpri, u_long * ot, u_long * otdisc, char * db, DRAWENV * draw, short curCamAngle, int atime);
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// Animation
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void playAnim(MESH * mesh, VANIM * anim, int loop);
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@ -33,3 +33,5 @@ long long easeIn(long long i);
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int easeOut(int i);
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int easeOut(int i);
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//~ int easeInOut(int i, int div);
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//~ int easeInOut(int i, int div);
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VECTOR getVectorTo(VECTOR actor, VECTOR target);
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VECTOR getVectorTo(VECTOR actor, VECTOR target);
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int32_t round( int32_t n);
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5441
levels/level0.c
5441
levels/level0.c
File diff suppressed because it is too large
Load Diff
@ -5,6 +5,12 @@
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extern LEVEL level0;
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extern LEVEL level0;
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extern CVECTOR level0_BGc;
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extern CVECTOR level0_BGc;
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extern VECTOR level0_BKc;
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extern VECTOR level0_BKc;
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extern MESH_ANIMS_TRACKS level0_modelCube_001_anims;
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extern VANIM level0_modelCube_001_anim_KeyAction;
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extern VANIM level0_modelCube_001_anim_KeyAction_004;
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extern VANIM level0_modelCube_001_anim_KeyAction_003;
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extern VANIM level0_modelCube_001_anim_KeyAction_001;
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extern VANIM level0_modelCube_001_anim_KeyAction_002;
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extern CAMPOS level0_camPos_Camera;
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extern CAMPOS level0_camPos_Camera;
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extern CAMPATH level0_camPath;
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extern CAMPATH level0_camPath;
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extern MATRIX level0_lgtmat;
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extern MATRIX level0_lgtmat;
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@ -16,14 +22,58 @@ extern PRIM level0_modelCube_index[];
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extern BODY level0_modelCube_body;
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extern BODY level0_modelCube_body;
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extern TMESH level0_modelCube;
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extern TMESH level0_modelCube;
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extern MESH level0_meshCube;
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extern MESH level0_meshCube;
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extern SVECTOR modelPlane_mesh[];
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extern SVECTOR modelCube_001_mesh[];
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extern SVECTOR level0_modelPlane_normal[];
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extern SVECTOR level0_modelCube_001_normal[];
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extern CVECTOR level0_modelPlane_color[];
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extern CVECTOR level0_modelCube_001_color[];
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extern PRIM level0_modelPlane_index[];
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extern PRIM level0_modelCube_001_index[];
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extern BODY level0_modelPlane_body;
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extern BODY level0_modelCube_001_body;
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extern TMESH level0_modelPlane;
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extern TMESH level0_modelCube_001;
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extern MESH level0_meshPlane;
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extern MESH level0_meshCube_001;
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extern MESH * level0_meshes[2];
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extern SVECTOR modelPlane_000_mesh[];
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extern SVECTOR level0_modelPlane_000_normal[];
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extern SVECTOR level0_modelPlane_000_uv[];
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extern CVECTOR level0_modelPlane_000_color[];
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extern PRIM level0_modelPlane_000_index[];
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extern BODY level0_modelPlane_000_body;
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extern TMESH level0_modelPlane_000;
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extern unsigned long _binary_TIM_woods_tim_start[];
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extern unsigned long _binary_TIM_woods_tim_end[];
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extern unsigned long _binary_TIM_woods_tim_length;
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extern TIM_IMAGE level0_tim_woods;
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extern MESH level0_meshPlane_000;
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extern SVECTOR modelPlane_001_mesh[];
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extern SVECTOR level0_modelPlane_001_normal[];
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extern SVECTOR level0_modelPlane_001_uv[];
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extern CVECTOR level0_modelPlane_001_color[];
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extern PRIM level0_modelPlane_001_index[];
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extern BODY level0_modelPlane_001_body;
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extern TMESH level0_modelPlane_001;
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extern MESH level0_meshPlane_001;
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extern SVECTOR modelPlane_002_mesh[];
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extern SVECTOR level0_modelPlane_002_normal[];
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extern SVECTOR level0_modelPlane_002_uv[];
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extern CVECTOR level0_modelPlane_002_color[];
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extern PRIM level0_modelPlane_002_index[];
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extern BODY level0_modelPlane_002_body;
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extern TMESH level0_modelPlane_002;
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extern MESH level0_meshPlane_002;
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extern SVECTOR modelPlane_005_mesh[];
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extern SVECTOR level0_modelPlane_005_normal[];
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extern SVECTOR level0_modelPlane_005_uv[];
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extern CVECTOR level0_modelPlane_005_color[];
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extern PRIM level0_modelPlane_005_index[];
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extern BODY level0_modelPlane_005_body;
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extern TMESH level0_modelPlane_005;
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extern MESH level0_meshPlane_005;
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extern SVECTOR modelPlane_006_mesh[];
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extern SVECTOR level0_modelPlane_006_normal[];
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extern SVECTOR level0_modelPlane_006_uv[];
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extern CVECTOR level0_modelPlane_006_color[];
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extern PRIM level0_modelPlane_006_index[];
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extern BODY level0_modelPlane_006_body;
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extern TMESH level0_modelPlane_006;
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extern MESH level0_meshPlane_006;
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extern MESH * level0_meshes[7];
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extern int level0_meshes_length;
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extern int level0_meshes_length;
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extern CAMANGLE level0_camAngle_Camera;
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extern CAMANGLE level0_camAngle_Camera;
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extern CAMANGLE * level0_camAngles[0];
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extern CAMANGLE * level0_camAngles[0];
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3665
levels/level1.c
3665
levels/level1.c
File diff suppressed because it is too large
Load Diff
@ -5,6 +5,10 @@
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extern LEVEL level1;
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extern LEVEL level1;
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extern CVECTOR level1_BGc;
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extern CVECTOR level1_BGc;
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extern VECTOR level1_BKc;
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extern VECTOR level1_BKc;
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extern MESH_ANIMS_TRACKS level1_modelCube_anims;
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extern VANIM level1_modelCube_anim_Cube;
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extern MESH_ANIMS_TRACKS level1_modelCylindre_anims;
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extern VANIM level1_modelCylindre_anim_Cylindre;
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extern CAMPOS level1_camPos_camPath;
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extern CAMPOS level1_camPos_camPath;
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extern CAMPOS level1_camPos_camPath_001;
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extern CAMPOS level1_camPos_camPath_001;
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extern CAMPOS level1_camPos_camPath_002;
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extern CAMPOS level1_camPos_camPath_002;
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@ -31,7 +35,6 @@ extern SVECTOR level1_modelCylindre_normal[];
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extern SVECTOR level1_modelCylindre_uv[];
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extern SVECTOR level1_modelCylindre_uv[];
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extern CVECTOR level1_modelCylindre_color[];
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extern CVECTOR level1_modelCylindre_color[];
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extern PRIM level1_modelCylindre_index[];
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extern PRIM level1_modelCylindre_index[];
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extern VANIM level1_modelCylindre_anim;
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extern BODY level1_modelCylindre_body;
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extern BODY level1_modelCylindre_body;
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extern TMESH level1_modelCylindre;
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extern TMESH level1_modelCylindre;
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extern unsigned long _binary_TIM_home_tim_start[];
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extern unsigned long _binary_TIM_home_tim_start[];
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@ -151,6 +154,14 @@ extern MESH * level1_meshes[15];
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extern int level1_meshes_length;
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extern int level1_meshes_length;
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extern CAMANGLE level1_camAngle_camPath_001;
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extern CAMANGLE level1_camAngle_camPath_001;
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extern CAMANGLE * level1_camAngles[0];
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extern CAMANGLE * level1_camAngles[0];
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extern SIBLINGS level1_nodegnd_siblings;
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extern CHILDREN level1_nodegnd_objects;
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extern CHILDREN level1_nodegnd_rigidbodies;
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extern NODE level1_nodegnd;
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extern SIBLINGS level1_nodegnd_002_siblings;
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extern CHILDREN level1_nodegnd_002_objects;
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extern CHILDREN level1_nodegnd_002_rigidbodies;
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extern NODE level1_nodegnd_002;
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extern SIBLINGS level1_nodegnd_001_siblings;
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extern SIBLINGS level1_nodegnd_001_siblings;
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extern CHILDREN level1_nodegnd_001_objects;
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extern CHILDREN level1_nodegnd_001_objects;
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extern CHILDREN level1_nodegnd_001_rigidbodies;
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extern CHILDREN level1_nodegnd_001_rigidbodies;
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@ -159,22 +170,12 @@ extern SIBLINGS level1_nodegnd_003_siblings;
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extern CHILDREN level1_nodegnd_003_objects;
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extern CHILDREN level1_nodegnd_003_objects;
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extern CHILDREN level1_nodegnd_003_rigidbodies;
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extern CHILDREN level1_nodegnd_003_rigidbodies;
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extern NODE level1_nodegnd_003;
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extern NODE level1_nodegnd_003;
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extern SIBLINGS level1_nodegnd_002_siblings;
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extern CHILDREN level1_nodegnd_002_objects;
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extern CHILDREN level1_nodegnd_002_rigidbodies;
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extern NODE level1_nodegnd_002;
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extern SIBLINGS level1_nodegnd_siblings;
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extern CHILDREN level1_nodegnd_objects;
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extern CHILDREN level1_nodegnd_rigidbodies;
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extern NODE level1_nodegnd;
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extern MESH * level1_actorPtr;
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extern MESH * level1_actorPtr;
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extern MESH * level1_levelPtr;
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extern MESH * level1_levelPtr;
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extern MESH * level1_propPtr;
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extern MESH * level1_propPtr;
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extern CAMANGLE * level1_camPtr;
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extern CAMANGLE * level1_camPtr;
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extern NODE * level1_curNode;
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extern NODE * level1_curNode;
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extern NODE level1_nodegnd;
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extern NODE level1_nodegnd_002;
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extern NODE level1_nodegnd_001;
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extern NODE level1_nodegnd_001;
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extern NODE level1_nodegnd_003;
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extern NODE level1_nodegnd_003;
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extern NODE level1_nodegnd_002;
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extern NODE level1_nodegnd;
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extern VAGbank VAGBank1;
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extern XAbank XABank1;
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142
src/graphics.c
142
src/graphics.c
@ -51,40 +51,54 @@ void set3VertexLerPos(MESH * mesh, long t){
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// TODO : Pre-calculate lerp positions at runtime (for i in nframes, do calc)
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// TODO : Pre-calculate lerp positions at runtime (for i in nframes, do calc)
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// Fixed point math precision
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// Fixed point math precision
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short precision = 12;
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short precision = 12;
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// Vertex 1
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vx ].vx = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
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mesh->tmesh->v[ mesh->index[ t ].order.vx ].vx = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vx].vx << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vx].vx << precision, mesh->anim->cursor << precision) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vx ].vz = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
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mesh->tmesh->v[ mesh->index[ t ].order.vx ].vz = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vx].vz << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vx].vz << precision, mesh->anim->cursor << precision) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vx ].vy = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
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mesh->tmesh->v[ mesh->index[ t ].order.vx ].vy = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vx].vy << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vx].vy << precision, mesh->anim->cursor << precision) >> precision;
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//~ // Vertex 2
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vz ].vx = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vz ].vz = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vz ].vy = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
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//~ // Vertex 3
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vy ].vx = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vy ].vz = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
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//~ mesh->tmesh->v[ mesh->index[ t ].order.vy ].vy = round(lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
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||||||
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vx = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vz = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vy = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vx].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vx].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
// Vertex 2
|
// Vertex 2
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vx = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vz].vx << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vz].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vx = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vz = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vz].vz << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vz].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vz = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vy = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vz].vy << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vz].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vy = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vz].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vz].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
// Vertex 3
|
// Vertex 3
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vx = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vy].vx << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vy].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vx = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vx << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vx << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vz = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vy].vz << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vy].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vz = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vz << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vz << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vy = lerpD( mesh->anim->data[mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[t].order.vy].vy << precision , mesh->anim->data[(mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[t].order.vy].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vy = (lerpD( mesh->currentAnim->data[mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[t].order.vy].vy << precision , mesh->currentAnim->data[(mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[t].order.vy].vy << precision, mesh->currentAnim->cursor << precision)) >> precision;
|
||||||
mesh->anim->cursor += 24 * mesh->anim->dir;
|
|
||||||
|
mesh->currentAnim->cursor += 24 * mesh->currentAnim->dir;
|
||||||
};
|
};
|
||||||
void set4VertexLerPos(MESH * mesh, long t){
|
void set4VertexLerPos(MESH * mesh, long t){
|
||||||
// Find and set 4 interpolated vertex value
|
// Find and set 4 interpolated vertex value
|
||||||
short precision = 12;
|
short precision = 12;
|
||||||
// Vertex 1
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vx = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vx << precision ,
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vx = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vx ].vx << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vx ].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vx << precision,
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vz = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vx ].vz << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vx ].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vy = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vx ].vy << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vx ].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vz = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vz << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vz << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
|
mesh->tmesh->v[ mesh->index[ t ].order.vx ].vy = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vy << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vx ].vy << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
// Vertex 2
|
// Vertex 2
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vx = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vz ].vx << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vz ].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vx = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vx << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vx << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vz = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vz ].vz << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vz ].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vz = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vz << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vz << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vy = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vz ].vy << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vz ].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vz ].vy = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vy << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vz ].vy << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
// Vertex 3
|
// Vertex 3
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vx = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vy ].vx << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vy ].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vx = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vx << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vx << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vz = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vy ].vz << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vy ].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vz = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vz << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vz << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vy = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.vy ].vy << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.vy ].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.vy ].vy = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vy << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.vy ].vy << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
// Vertex 4
|
// Vertex 4
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vx = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.pad ].vx << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.pad ].vx << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vx = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vx << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vx << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vz = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.pad ].vz << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.pad ].vz << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vz = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vz << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vz << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vy = lerpD( mesh->anim->data[ mesh->anim->lerpCursor * mesh->anim->nvert + mesh->index[ t ].order.pad ].vy << precision , mesh->anim->data[ (mesh->anim->lerpCursor + 1) * mesh->anim->nvert + mesh->index[ t ].order.pad ].vy << precision, mesh->anim->cursor << precision) >> precision;
|
mesh->tmesh->v[ mesh->index[ t ].order.pad ].vy = lerpD( mesh->currentAnim->data[ mesh->currentAnim->lerpCursor * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vy << precision , mesh->currentAnim->data[ (mesh->currentAnim->lerpCursor + 1) * mesh->currentAnim->nvert + mesh->index[ t ].order.pad ].vy << precision, mesh->currentAnim->cursor << precision) >> precision;
|
||||||
mesh->anim->cursor += 2 * mesh->anim->dir;
|
|
||||||
|
mesh->currentAnim->cursor += 24 * mesh->currentAnim->dir;
|
||||||
}
|
}
|
||||||
long interpolateTri(POLY_GT3 * poly, MESH * mesh, long t){
|
long interpolateTri(POLY_GT3 * poly, MESH * mesh, long t){
|
||||||
long Flag, nclip = 0;
|
long Flag, nclip = 0;
|
||||||
@ -93,16 +107,16 @@ long interpolateTri(POLY_GT3 * poly, MESH * mesh, long t){
|
|||||||
//~ // mesh->anim->dir *= -1;
|
//~ // mesh->anim->dir *= -1;
|
||||||
//~ //}
|
//~ //}
|
||||||
// Find next keyframe
|
// Find next keyframe
|
||||||
if (mesh->anim->cursor > (1 << 12)) {
|
if (mesh->currentAnim->cursor > (1 << 12)) {
|
||||||
// There are still keyframes to interpolate between
|
// There are still keyframes to interpolate between
|
||||||
if ( mesh->anim->lerpCursor < mesh->anim->nframes - 1 ) {
|
if ( mesh->currentAnim->lerpCursor < mesh->currentAnim->nframes - 1 ) {
|
||||||
mesh->anim->lerpCursor ++;
|
mesh->currentAnim->lerpCursor ++;
|
||||||
mesh->anim->cursor = 0;
|
mesh->currentAnim->cursor = 0;
|
||||||
}
|
}
|
||||||
// We've reached last frame, go back to first frame
|
// We've reached last frame, go back to first frame
|
||||||
if ( mesh->anim->lerpCursor == mesh->anim->nframes - 1 ) {
|
if ( mesh->currentAnim->lerpCursor == mesh->currentAnim->nframes - 1 ) {
|
||||||
mesh->anim->lerpCursor = 0;
|
mesh->currentAnim->lerpCursor = 0;
|
||||||
mesh->anim->cursor = 0;
|
mesh->currentAnim->cursor = 0;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
// Find and set interpolated vertex value
|
// Find and set interpolated vertex value
|
||||||
@ -127,14 +141,15 @@ long interpolateQuad(POLY_GT4 * poly4, MESH * mesh, long t){
|
|||||||
//~ mesh->anim->dir *= -1;
|
//~ mesh->anim->dir *= -1;
|
||||||
//~ }
|
//~ }
|
||||||
short precision = 12;
|
short precision = 12;
|
||||||
if ( mesh->anim->cursor > 1<<precision ) {
|
//~ if ( mesh->anim->cursor > 1<<precision ) {
|
||||||
if ( mesh->anim->lerpCursor < mesh->anim->nframes - 1 ) {
|
if ( mesh->currentAnim->cursor > (1 << 12) ) {
|
||||||
mesh->anim->lerpCursor ++;
|
if ( mesh->currentAnim->lerpCursor < mesh->currentAnim->nframes - 1 ) {
|
||||||
mesh->anim->cursor = 0;
|
mesh->currentAnim->lerpCursor ++;
|
||||||
|
mesh->currentAnim->cursor = 0;
|
||||||
}
|
}
|
||||||
if ( mesh->anim->lerpCursor == mesh->anim->nframes - 1 ) {
|
if ( mesh->currentAnim->lerpCursor == mesh->currentAnim->nframes - 1 ) {
|
||||||
mesh->anim->lerpCursor = 0;
|
mesh->currentAnim->lerpCursor = 0;
|
||||||
mesh->anim->cursor = 0;
|
mesh->currentAnim->cursor = 0;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
// Find and set interpolated vertex value
|
// Find and set interpolated vertex value
|
||||||
@ -346,17 +361,18 @@ long drawQuad(MESH * mesh, int atime, int * camMode, char ** nextpri, u_long * o
|
|||||||
poly4 = (POLY_GT4 *)*nextpri;
|
poly4 = (POLY_GT4 *)*nextpri;
|
||||||
|
|
||||||
// Vertex Anim
|
// Vertex Anim
|
||||||
if (mesh->isAnim){
|
if (mesh->isAnim && mesh->currentAnim){
|
||||||
// with interpolation
|
// with interpolation
|
||||||
if ( mesh->anim->interpolate ){
|
if ( mesh->anim_tracks->strips[0]->interpolate ){
|
||||||
interpolateQuad(poly4, mesh, t);
|
nclip = interpolateQuad(poly4, mesh, t);
|
||||||
} else {
|
} else {
|
||||||
|
// TODO : write playAnim()
|
||||||
// No interpolation, use all vertices coordinates in anim data
|
// No interpolation, use all vertices coordinates in anim data
|
||||||
gte_RotAverageNclip4(
|
gte_RotAverageNclip4(
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.pad ],
|
&mesh->currentAnim->data[ atime % mesh->anim_tracks->strips[0]->nframes * mesh->anim_tracks->strips[0]->nvert + mesh->index[t].order.pad ],
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vz ],
|
&mesh->currentAnim->data[ atime % mesh->anim_tracks->strips[0]->nframes * mesh->anim_tracks->strips[0]->nvert + mesh->index[t].order.vz ],
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vx ],
|
&mesh->currentAnim->data[ atime % mesh->anim_tracks->strips[0]->nframes * mesh->anim_tracks->strips[0]->nvert + mesh->index[t].order.vx ],
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vy ],
|
&mesh->currentAnim->data[ atime % mesh->anim_tracks->strips[0]->nframes * mesh->anim_tracks->strips[0]->nvert + mesh->index[t].order.vy ],
|
||||||
( long* )&poly4->x0, ( long* )&poly4->x1, ( long* )&poly4->x2, ( long* )&poly4->x3,
|
( long* )&poly4->x0, ( long* )&poly4->x1, ( long* )&poly4->x2, ( long* )&poly4->x3,
|
||||||
&mesh->p,
|
&mesh->p,
|
||||||
&mesh->OTz,
|
&mesh->OTz,
|
||||||
@ -429,17 +445,17 @@ long drawTri(MESH * mesh, int atime, int * camMode, char ** nextpri, u_long * ot
|
|||||||
if ( !( mesh->isBG ) || *camMode != 2) {
|
if ( !( mesh->isBG ) || *camMode != 2) {
|
||||||
poly = (POLY_GT3 *)*nextpri;
|
poly = (POLY_GT3 *)*nextpri;
|
||||||
// If Vertex Anim flag is set, use it
|
// If Vertex Anim flag is set, use it
|
||||||
if (mesh->isAnim){
|
if (mesh->isAnim && mesh->currentAnim){
|
||||||
// If interpolation flag is set, use it
|
// If interpolation flag is set, use it
|
||||||
if(mesh->anim->interpolate){
|
if(mesh->anim_tracks->strips[0]->interpolate){
|
||||||
nclip = interpolateTri(poly, mesh, t);
|
nclip = interpolateTri(poly, mesh, t);
|
||||||
} else {
|
} else {
|
||||||
// No interpolation
|
// No interpolation
|
||||||
// Use the pre-calculated vertices coordinates from the animation data
|
// Use the pre-calculated vertices coordinates from the animation data
|
||||||
gte_RotAverageNclip3(
|
gte_RotAverageNclip3(
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vx ],
|
&mesh->currentAnim->data[ atime % mesh->currentAnim->nframes * mesh->currentAnim->nvert + mesh->index[t].order.vx ],
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vz ],
|
&mesh->currentAnim->data[ atime % mesh->currentAnim->nframes * mesh->currentAnim->nvert + mesh->index[t].order.vz ],
|
||||||
&mesh->anim->data[ atime % mesh->anim->nframes * mesh->anim->nvert + mesh->index[t].order.vy ],
|
&mesh->currentAnim->data[ atime % mesh->currentAnim->nframes * mesh->currentAnim->nvert + mesh->index[t].order.vy ],
|
||||||
( long* ) &poly->x0, ( long* ) &poly->x1, ( long* ) &poly->x2,
|
( long* ) &poly->x0, ( long* ) &poly->x1, ( long* ) &poly->x2,
|
||||||
&mesh->p,
|
&mesh->p,
|
||||||
&mesh->OTz,
|
&mesh->OTz,
|
||||||
@ -599,3 +615,27 @@ void renderScene(LEVEL * curLvl, CAMERA * camera, int * camMode, char ** nextpri
|
|||||||
}
|
}
|
||||||
updateLight();
|
updateLight();
|
||||||
};
|
};
|
||||||
|
|
||||||
|
void playAnim(MESH * mesh, VANIM * anim, int loop){
|
||||||
|
if (mesh->isAnim){
|
||||||
|
// Set looping (-1 : infinite, n > 0 : loop n times )
|
||||||
|
if (mesh->currentAnim->loop == 0){
|
||||||
|
mesh->currentAnim->loop = loop;
|
||||||
|
}
|
||||||
|
// If anim not is not playing yet
|
||||||
|
if (mesh->currentAnim->cursor == -1){
|
||||||
|
// if cursor is -1, set to 0, start playback
|
||||||
|
mesh->currentAnim->cursor = 0;
|
||||||
|
} else {
|
||||||
|
|
||||||
|
}
|
||||||
|
// Anim is already playing
|
||||||
|
} else if (mesh->currentAnim == anim){
|
||||||
|
// If we're not in an infinite loop (-1)
|
||||||
|
if (mesh->currentAnim->loop > 0){
|
||||||
|
// Add loop iterations ?
|
||||||
|
mesh->currentAnim->loop = loop;
|
||||||
|
}
|
||||||
|
}
|
||||||
|
|
||||||
|
};
|
||||||
|
38
src/main.c
38
src/main.c
@ -37,7 +37,7 @@ u_long overlaySize = 0;
|
|||||||
#include "../levels/level1.h"
|
#include "../levels/level1.h"
|
||||||
|
|
||||||
// Levels
|
// Levels
|
||||||
u_char level = 1;
|
u_char level = 0;
|
||||||
u_short levelWas = 0;
|
u_short levelWas = 0;
|
||||||
u_short levelHasChanged = 0;
|
u_short levelHasChanged = 0;
|
||||||
// Overlay
|
// Overlay
|
||||||
@ -129,7 +129,7 @@ int main() {
|
|||||||
} else if ( level == 1) {
|
} else if ( level == 1) {
|
||||||
overlayFile = "\\level1.bin;1";
|
overlayFile = "\\level1.bin;1";
|
||||||
overlaySize = __lvl1_end;
|
overlaySize = __lvl1_end;
|
||||||
loadLvl = &level1;
|
//~ loadLvl = &level1;
|
||||||
}
|
}
|
||||||
// Load overlay from cd
|
// Load overlay from cd
|
||||||
#ifdef USECD
|
#ifdef USECD
|
||||||
@ -142,7 +142,7 @@ int main() {
|
|||||||
if ( level == 0 ) {
|
if ( level == 0 ) {
|
||||||
LvlPtrSet( &curLvl, &level0);
|
LvlPtrSet( &curLvl, &level0);
|
||||||
} else if ( level == 1) {
|
} else if ( level == 1) {
|
||||||
LvlPtrSet( &curLvl, &level1);
|
//~ LvlPtrSet( &curLvl, &level1);
|
||||||
}
|
}
|
||||||
levelWas = level;
|
levelWas = level;
|
||||||
// Copy light matrices / vector to scratchpad
|
// Copy light matrices / vector to scratchpad
|
||||||
@ -214,7 +214,7 @@ int main() {
|
|||||||
case 1:
|
case 1:
|
||||||
overlayFile = "\\level1.bin;1";
|
overlayFile = "\\level1.bin;1";
|
||||||
overlaySize = __lvl1_end;
|
overlaySize = __lvl1_end;
|
||||||
loadLvl = &level1;
|
//~ loadLvl = &level1;
|
||||||
// Copy light matrices / vector to scratchpad
|
// Copy light matrices / vector to scratchpad
|
||||||
|
|
||||||
break;
|
break;
|
||||||
@ -250,7 +250,6 @@ int main() {
|
|||||||
if (time % timediv == 0){
|
if (time % timediv == 0){
|
||||||
atime ++;
|
atime ++;
|
||||||
}
|
}
|
||||||
// TODO : put in a function
|
|
||||||
// Reset player/prop pos
|
// Reset player/prop pos
|
||||||
if(curLvl.actorPtr->pos.vy >= 200){
|
if(curLvl.actorPtr->pos.vy >= 200){
|
||||||
playSFX(&voiceAttributes, curLvl.levelSounds->sounds[6]->VAGsample, curLvl.levelSounds->sounds[6]->volumeL, curLvl.levelSounds->sounds[6]->volumeR);
|
playSFX(&voiceAttributes, curLvl.levelSounds->sounds[6]->VAGsample, curLvl.levelSounds->sounds[6]->volumeL, curLvl.levelSounds->sounds[6]->volumeR);
|
||||||
@ -388,6 +387,7 @@ int main() {
|
|||||||
FntPrint("XA: %x\n", curLvl.XA);
|
FntPrint("XA: %x\n", curLvl.XA);
|
||||||
FntPrint("Ofst: %d\n", curLvl.XA->banks[0]->offset);
|
FntPrint("Ofst: %d\n", curLvl.XA->banks[0]->offset);
|
||||||
FntPrint("Vol: %d %d\n", curLvl.levelSounds->sounds[0]->volumeL, curLvl.levelSounds->sounds[0]->volumeR );
|
FntPrint("Vol: %d %d\n", curLvl.levelSounds->sounds[0]->volumeL, curLvl.levelSounds->sounds[0]->volumeR );
|
||||||
|
FntPrint("Curanim : %x", curLvl.meshes[1]->currentAnim);
|
||||||
FntFlush(-1);
|
FntFlush(-1);
|
||||||
display( &disp[db], &draw[db], otdisc[db], primbuff[db], &nextpri, &db);
|
display( &disp[db], &draw[db], otdisc[db], primbuff[db], &nextpri, &db);
|
||||||
|
|
||||||
@ -474,6 +474,16 @@ void callback() {
|
|||||||
}
|
}
|
||||||
if ( PAD & Square && !( lastPad & Square ) ){
|
if ( PAD & Square && !( lastPad & Square ) ){
|
||||||
playSFX(&voiceAttributes, curLvl.levelSounds->sounds[7]->VAGsample, curLvl.levelSounds->sounds[7]->volumeL, curLvl.levelSounds->sounds[7]->volumeR);
|
playSFX(&voiceAttributes, curLvl.levelSounds->sounds[7]->VAGsample, curLvl.levelSounds->sounds[7]->volumeL, curLvl.levelSounds->sounds[7]->volumeR);
|
||||||
|
if ( curLvl.meshes[1]->currentAnim == 0 ||
|
||||||
|
curLvl.meshes[1]->currentAnim == curLvl.meshes[1]->anim_tracks->strips[0]
|
||||||
|
){
|
||||||
|
if (curLvl.meshes[1]->anim_tracks->index > 1) {
|
||||||
|
curLvl.meshes[1]->currentAnim = curLvl.meshes[1]->anim_tracks->strips[1];
|
||||||
|
}
|
||||||
|
} else {
|
||||||
|
//~ curLvl.meshes[1]->anim_tracks->strips[0]->interpolate = 1;
|
||||||
|
curLvl.meshes[1]->currentAnim = curLvl.meshes[1]->anim_tracks->strips[0];
|
||||||
|
}
|
||||||
//~ sample = 0;
|
//~ sample = 0;
|
||||||
//~ setXAsample(&XABank.samples[sample], &filter);
|
//~ setXAsample(&XABank.samples[sample], &filter);
|
||||||
lastPad = PAD;
|
lastPad = PAD;
|
||||||
@ -500,17 +510,13 @@ void callback() {
|
|||||||
if ( !(PAD & Circle) && lastPad & Circle ) {
|
if ( !(PAD & Circle) && lastPad & Circle ) {
|
||||||
lastPad = PAD;
|
lastPad = PAD;
|
||||||
}
|
}
|
||||||
if ( PAD & PadLeft && !(lastPad & PadLeft) ) {
|
//~ if ( PAD & PadLeft && !(lastPad & PadLeft) ) {
|
||||||
if (curLvl.actorPtr->anim->interpolate){
|
|
||||||
curLvl.actorPtr->anim->interpolate = 0;
|
//~ lastPad = PAD;
|
||||||
} else {
|
//~ }
|
||||||
curLvl.actorPtr->anim->interpolate = 1;
|
//~ if ( !(PAD & PadLeft) && lastPad & PadLeft ) {
|
||||||
}
|
//~ lastPad = PAD;
|
||||||
lastPad = PAD;
|
//~ }
|
||||||
}
|
|
||||||
if ( !(PAD & PadLeft) && lastPad & PadLeft ) {
|
|
||||||
lastPad = PAD;
|
|
||||||
}
|
|
||||||
if (theControllers[0].type == 0x73){
|
if (theControllers[0].type == 0x73){
|
||||||
// Analog stick L up
|
// Analog stick L up
|
||||||
if ( theControllers[0].analog3 >= 0 && theControllers[0].analog3 < (128 - DS_DZ/2)) {
|
if ( theControllers[0].analog3 >= 0 && theControllers[0].analog3 < (128 - DS_DZ/2)) {
|
||||||
|
44
src/math.c
44
src/math.c
@ -13,9 +13,11 @@ void generateTable(void){
|
|||||||
m_cosTable[0] = 16777216; // 2^24 * cos(0 * 2pi / 2048) => 2^24 * 1 = 2^24 : here, 2^24 defines the precision we want after the decimal point
|
m_cosTable[0] = 16777216; // 2^24 * cos(0 * 2pi / 2048) => 2^24 * 1 = 2^24 : here, 2^24 defines the precision we want after the decimal point
|
||||||
static const long long C = 16777137; // 2^24 * cos(1 * 2pi / 2048) = C = f(1);
|
static const long long C = 16777137; // 2^24 * cos(1 * 2pi / 2048) = C = f(1);
|
||||||
m_cosTable[1] = C;
|
m_cosTable[1] = C;
|
||||||
for (int i = 2; i < 512; i++){
|
for (int i = 2; i < 511; i++){
|
||||||
m_cosTable[i] = ((C * m_cosTable[i - 1]) >> 23) - m_cosTable[i - 2];
|
m_cosTable[i] = ((C * m_cosTable[i - 1]) >> 23) - m_cosTable[i - 2];
|
||||||
m_cosTable[511] = 0;
|
}
|
||||||
|
for (int i = 0; i < 512; i++){
|
||||||
|
m_cosTable[i] >>= 12;
|
||||||
}
|
}
|
||||||
};
|
};
|
||||||
int ncos(unsigned int t) {
|
int ncos(unsigned int t) {
|
||||||
@ -30,7 +32,7 @@ int ncos(unsigned int t) {
|
|||||||
} else {
|
} else {
|
||||||
r = m_cosTable[DC_2PI - 1 - t];
|
r = m_cosTable[DC_2PI - 1 - t];
|
||||||
};
|
};
|
||||||
return r >> 12;
|
return r;
|
||||||
};
|
};
|
||||||
// sin(x) = cos(x - pi / 2)
|
// sin(x) = cos(x - pi / 2)
|
||||||
int nsin(unsigned int t) {
|
int nsin(unsigned int t) {
|
||||||
@ -106,7 +108,8 @@ int32_t lerpS(int32_t start, int32_t dest, unsigned pos) {
|
|||||||
// precision = 2^24 - 2^x
|
// precision = 2^24 - 2^x
|
||||||
// << x : 0 < pos < precision
|
// << x : 0 < pos < precision
|
||||||
// https://discord.com/channels/642647820683444236/646765703143227394/811318550978494505
|
// https://discord.com/channels/642647820683444236/646765703143227394/811318550978494505
|
||||||
// my angles are between 0 and 2048 (full circle), so 2^11 for the range of angles; with numbers on a 8.24 representation, a 1.0 angle (or 2pi) means it's 2^24, so to "convert" my angles from 8.24 to my internal discrete cos, I only have to shift by 13
|
// my angles are between 0 and 2048 (full circle), so 2^11 for the range of angles; with numbers on a 8.24 representation,
|
||||||
|
// a 1.0 angle (or 2pi) means it's 2^24, so to "convert" my angles from 8.24 to my internal discrete cos, I only have to shift by 13
|
||||||
int32_t lerpD(int32_t start, int32_t dest, int32_t pos) {
|
int32_t lerpD(int32_t start, int32_t dest, int32_t pos) {
|
||||||
return dMul(start, 16777216 - pos) + dMul(dest, pos);
|
return dMul(start, 16777216 - pos) + dMul(dest, pos);
|
||||||
};
|
};
|
||||||
@ -144,3 +147,36 @@ VECTOR getVectorTo( VECTOR actor, VECTOR target ) {
|
|||||||
VectorNormal(&direction, &Ndirection);
|
VectorNormal(&direction, &Ndirection);
|
||||||
return Ndirection ;
|
return Ndirection ;
|
||||||
};
|
};
|
||||||
|
|
||||||
|
int32_t round( int32_t n){
|
||||||
|
// GRS - Action
|
||||||
|
// 0xx - round down = do nothing (x means any bit value, 0 or 1)
|
||||||
|
// 100 - this is a tie: round up if the mantissa's bit just before G is 1, else round down=do nothing
|
||||||
|
// 101 - round up
|
||||||
|
// 110 - round up
|
||||||
|
// 111 - round up
|
||||||
|
// source : https://stackoverflow.com/a/8984135
|
||||||
|
// e.g : n == 106 150 == 0000 0000 0000 0001 1001 1110 1010 0110
|
||||||
|
// Get GRS bits
|
||||||
|
// 0xe00 == 0000 1110 0000 0000
|
||||||
|
int8_t grs = ( n & 0xe00) >> 8 ; // 1110 0000 0000 >> 8
|
||||||
|
// GRS == 111(0)
|
||||||
|
// Get G value - 0x8 == 1000
|
||||||
|
if (grs & 0x8){
|
||||||
|
// GRS = 1xx
|
||||||
|
if ( // Get R value - 0x4 == 0100
|
||||||
|
// GRS == 11x ; round up
|
||||||
|
grs & 0x4 ||
|
||||||
|
// Get S value - 0x2 == 0010
|
||||||
|
// GRS == 101 ; round up
|
||||||
|
( !(grs & 0x4) && grs & 0x2)
|
||||||
|
) {
|
||||||
|
n += 0x800;
|
||||||
|
} else if ( !(n & 0x1000) ) {
|
||||||
|
// Get mantissa lsb - 0x1000 == 0001 0000 0000
|
||||||
|
// GRS == 100 ; tie, round up if mantissa lsb is 1
|
||||||
|
n += 0x800;
|
||||||
|
}
|
||||||
|
}
|
||||||
|
return n;
|
||||||
|
};
|
||||||
|
Loading…
Reference in New Issue
Block a user