Continue physics

This commit is contained in:
Miloslav Ciz 2024-09-05 22:51:11 +02:00
parent 1c6666b377
commit 46c8a4eade
4 changed files with 122 additions and 23 deletions

View file

@ -21,6 +21,11 @@
#define LCR_MAP_SIZE_BLOCKS 64
/** Physics FPS, i.e. the number of physics ticks per second. */
#define LCR_RACING_FPS 25
#define LCR_RACING_TICK_MS (1000 / LCR_RACING_FPS)
#define LCR_ANIMATE_CAR (LCR_SETTING_CAR_ANIMATION_SUBDIVIDE != 0)
/** Maximum number of triangles of a block shape. */

34
game.h
View file

@ -74,7 +74,11 @@ uint8_t LCR_gameStep(uint32_t timeMs);
//------------------------------------------------------------------------------
uint32_t LCR_nextRenderFrameTime;
struct
{
uint32_t nextRenderFrameTime;
uint32_t nextRacingTickTime;
} LCR_game;
void LCR_drawPixelXYUnsafe(unsigned int x, unsigned int y,
uint16_t color);
@ -121,6 +125,9 @@ void LCR_gameInit(void)
LCR_mapLoad(map1);
LCR_rendererInit();
LCR_racingInit();
LCR_game.nextRenderFrameTime = 0;
LCR_game.nextRacingTickTime = 0;
}
void LCR_gameEnd(void)
@ -134,10 +141,27 @@ uint8_t LCR_gameStep(uint32_t time)
uint32_t sleep = 0;
if (time >= LCR_nextRenderFrameTime)
while (time >= LCR_game.nextRacingTickTime)
{
unsigned int input = 0;
if (LCR_keyStates[LCR_KEY_B])
input =
(LCR_keyStates[LCR_KEY_UP] ? LCR_RACING_INPUT_FORW : 0) |
(LCR_keyStates[LCR_KEY_RIGHT] ? LCR_RACING_INPUT_RIGHT : 0) |
(LCR_keyStates[LCR_KEY_DOWN] ? LCR_RACING_INPUT_BACK : 0) |
(LCR_keyStates[LCR_KEY_LEFT] ? LCR_RACING_INPUT_LEFT : 0);
LCR_racingStep(input);
LCR_game.nextRacingTickTime += LCR_RACING_TICK_MS;
}
if (time >= LCR_game.nextRenderFrameTime)
{
LCR_GameUnit carTransform[6];
LCR_racingGetCarTransform(carTransform,carTransform + 3);
LCR_rendererSetCarTransform(carTransform,carTransform + 3);
@ -149,7 +173,7 @@ LCR_rendererGetCameraTransform(sss,sss + 3,sss + 6);
LCR_physicsDebugDraw(sss,sss + 3,sss[6]);
LCR_nextRenderFrameTime += 1000 / LCR_SETTING_FPS;
LCR_game.nextRenderFrameTime += 1000 / LCR_SETTING_FPS;
LCR_GameUnit offsets[5];
@ -168,7 +192,7 @@ LCR_physicsDebugDraw(sss,sss + 3,sss[6]);
else if (LCR_keyStates[LCR_KEY_LEFT])
offsets[3] = LCR_FREE_CAMERA_TURN_STEP;
}
else
else if (!LCR_keyStates[LCR_KEY_B])
{
if (LCR_keyStates[LCR_KEY_UP])
offsets[0] = LCR_FREE_CAMERA_STEP;
@ -184,7 +208,7 @@ LCR_physicsDebugDraw(sss,sss + 3,sss[6]);
LCR_rendererMoveCamera(offsets,offsets + 3);
}
else
sleep = LCR_nextRenderFrameTime - time;
sleep = LCR_game.nextRenderFrameTime - time;
if (sleep)
LCR_sleep(sleep);

View file

@ -9,55 +9,114 @@ typedef int32_t LCR_GameUnit; ///< game spatial units
#define LCR_GAME_UNIT 1024 ///< length of map square in game units
#define LCR_RACING_INPUT_FORW 0x01
#define LCR_RACING_INPUT_RIGHT 0x02
#define LCR_RACING_INPUT_BACK 0x04
#define LCR_RACING_INPUT_LEFT 0x08
#define LCR_PHYSICS_UNIT 512 ///< length of map square for physics engine
#include "map.h"
#include "tinyphysicsengine.h"
#define LCR_CAR_JOINTS 5
#define LCR_CAR_CONNECTIONS 8
struct
{
TPE_World physicsWorld;
TPE_Body carBody;
TPE_Joint carJoints[5];
TPE_Connection carConnections[8];
} LCR_racing;
TPE_Vec3 LCR_racingEnvironmentFunction(TPE_Vec3 point, TPE_Unit maxDist)
{
/*
return
TPE_envHalfPlane(point,
TPE_vec3(0,0,0),
TPE_vec3(0,TPE_FRACTIONS_PER_UNIT,0));
*/
return TPE_envAABoxInside(point,TPE_vec3(0,0,0),TPE_vec3(
LCR_PHYSICS_UNIT * LCR_MAP_SIZE_BLOCKS,
(LCR_PHYSICS_UNIT * LCR_MAP_SIZE_BLOCKS) / 2,
LCR_PHYSICS_UNIT * LCR_MAP_SIZE_BLOCKS));
}
void LCR_racingInit(void)
{
LCR_log("initializing racing engine");
// make the car body:
TPE_makeCenterRect(LCR_racing.carJoints,
LCR_racing.carConnections,
LCR_GAME_UNIT / 3,
(LCR_GAME_UNIT) / 2,
LCR_GAME_UNIT / 8);
LCR_racing.carJoints[4].position.y += LCR_PHYSICS_UNIT / 3;
LCR_racing.carJoints[4].sizeDivided *= 3;
LCR_racing.carJoints[4].sizeDivided /= 2;
TPE_bodyInit(&(LCR_racing.carBody),
LCR_racing.carJoints,LCR_CAR_JOINTS,
LCR_racing.carConnections,LCR_CAR_CONNECTIONS,
TPE_FRACTIONS_PER_UNIT);
TPE_worldInit(&(LCR_racing.physicsWorld),
&(LCR_racing.carBody),1,LCR_racingEnvironmentFunction);
}
void LCR_racingGetCarTransform(LCR_GameUnit position[3],
LCR_GameUnit rotation[3])
{
#define AVERAGE(c) \
(((((LCR_racing.carBody.joints[0].position.c + \
LCR_racing.carBody.joints[1].position.c + \
LCR_racing.carBody.joints[2].position.c + \
LCR_racing.carBody.joints[3].position.c) / 4) + \
LCR_racing.carBody.joints[4].position.c) / 2) * \
LCR_GAME_UNIT) / LCR_PHYSICS_UNIT
position[0] = AVERAGE(x);
position[1] = AVERAGE(y);
position[2] = AVERAGE(z);
#undef AVERAGE
}
void _LCR_drawPhysicsDebugPixel(uint16_t x, uint16_t y, uint8_t color)
{
if (x > 1 && x < LCR_EFFECTIVE_RESOLUTION_X - 1 &&
y > 1 && y < LCR_EFFECTIVE_RESOLUTION_Y - 1)
if (x > 1 && x < LCR_EFFECTIVE_RESOLUTION_X - 2 &&
y > 1 && y < LCR_EFFECTIVE_RESOLUTION_Y - 2)
{
uint16_t color = color;
color = (color << 3) | 0xf800;
uint16_t c = 0x8101 | (0x8f1f << (2 * color));
for (int j = -1; j < 2; ++j)
for (int i = -1; i < 2; ++i)
LCR_drawPixelXYUnsafe(x + i,y + j,color);
for (int j = -1; j <= 2; ++j)
for (int i = -1; i <= 2; ++i)
LCR_drawPixelXYUnsafe(x + i,y + j,c);
}
}
// TODO: input
void LCR_racingStep(unsigned int input)
{
TPE_Vec3 vel = TPE_vec3(0,0,0);
if (input)
{
if (input & LCR_RACING_INPUT_FORW)
vel.z = LCR_GAME_UNIT / 32;
if (input & LCR_RACING_INPUT_BACK)
vel.y = LCR_GAME_UNIT / 32;
if (input & LCR_RACING_INPUT_RIGHT)
vel.x = LCR_GAME_UNIT / 32;
if (input & LCR_RACING_INPUT_LEFT)
vel.x = -1 * LCR_GAME_UNIT / 32;
TPE_bodyAccelerate(&(LCR_racing.carBody),vel);
}
TPE_worldStep(&(LCR_racing.physicsWorld));
}
void LCR_physicsDebugDraw(LCR_GameUnit camPos[3], LCR_GameUnit camRot[2],
LCR_GameUnit camFov)
{

View file

@ -7,7 +7,7 @@
#define S3L_RESOLUTION_X LCR_SETTING_RESOLUTION_X
#define S3L_RESOLUTION_Y LCR_SETTING_RESOLUTION_Y
#define S3L_PIXEL_FUNCTION LCR_pixelFunc3D
#define S3L_PIXEL_FUNCTION _LCR_pixelFuncc3D
#define S3L_PERSPECTIVE_CORRECTION 2
#define S3L_NEAR_CROSS_STRATEGY 1
@ -82,7 +82,18 @@ struct
} LCR_renderer;
void LCR_pixelFunc3D(S3L_PixelInfo *pixel)
void LCR_rendererSetCarTransform(LCR_GameUnit position[3],
LCR_GameUnit rotation[3])
{
LCR_renderer.carModel->transform.translation.x =
(position[0] * LCR_RENDERER_UNIT) / LCR_GAME_UNIT;
LCR_renderer.carModel->transform.translation.y =
(position[1] * LCR_RENDERER_UNIT) / LCR_GAME_UNIT;
LCR_renderer.carModel->transform.translation.z =
(position[2] * LCR_RENDERER_UNIT) / LCR_GAME_UNIT;
}
void _LCR_pixelFuncc3D(S3L_PixelInfo *pixel)
{
// once we get a new triangle, we precompute things for it:
if (pixel->triangleID != LCR_renderer.previousTriID)