int main(int argc, char* argv[]) { setupCallbacks(); int i, j; // Load emd mesh from file EMD_MESH* mesh = EMD_LoadMeshFromFile("scene.emd"); int vert_count = EMD_GetVertexCount(mesh); int idx_count = 0; int elem_count = EMD_GetElementCount(mesh); for (i=0; i<elem_count; i++) { idx_count += EMD_GetIndexCount(mesh, i); } VERTEX* vert_buf = (VERTEX*)memalign(16, sizeof(VERTEX) * vert_count); GW_UINT16* idx_buf = (GW_UINT16*)memalign(16, sizeof(GW_UINT16) * idx_count); for (i=0; i<vert_count; i++) { EMD_GetVertexByIndex(mesh, i, &vert_buf[i].x, &vert_buf[i].y, &vert_buf[i].z); EMD_GetTexcoordByIndex(mesh, i, &vert_buf[i].u, &vert_buf[i].v); EMD_GetNormalByIndex(mesh, i, &vert_buf[i].nx, &vert_buf[i].ny, &vert_buf[i].nz); //vert_buf[i].color = 0xffffffff; } GW_UINT32 idx_head = 0; GW_UINT32* data; GW_UINT32 count; // Pack 32-bit index into 16-bit buffer for (i=0; i<elem_count; i++) { count = EMD_GetIndexCount(mesh, i); data = EMD_GetIndexArray(mesh, i); for (j=0; j<count; j++) { idx_buf[j + idx_head] = (GW_UINT16)data[j]; } idx_head += count; } EMD_FreeMesh(mesh); // flush cache so that no stray data remains sceKernelDcacheWritebackAll(); // setup GU void* fbp0 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* fbp1 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* zbp = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_4444); pspDebugScreenInit(); sceGuInit(); sceGuStart(GU_DIRECT,list); sceGuDrawBuffer(GU_PSM_8888,fbp0,BUF_WIDTH); sceGuDispBuffer(SCR_WIDTH,SCR_HEIGHT,fbp1,BUF_WIDTH); sceGuDepthBuffer(zbp,BUF_WIDTH); sceGuOffset(2048 - (SCR_WIDTH/2),2048 - (SCR_HEIGHT/2)); sceGuViewport(2048,2048,SCR_WIDTH,SCR_HEIGHT); sceGuDepthRange(65535,0); sceGuScissor(0,0,SCR_WIDTH,SCR_HEIGHT); sceGuEnable(GU_SCISSOR_TEST); sceGuDepthFunc(GU_GEQUAL); sceGuEnable(GU_DEPTH_TEST); sceGuFrontFace(GU_CCW); sceGuShadeModel(GU_SMOOTH); sceGuEnable(GU_CULL_FACE); //sceGuDisable(GU_TEXTURE_2D); sceGuEnable(GU_CLIP_PLANES); sceGuEnable(GU_LIGHTING); sceGuEnable(GU_LIGHT0); sceGuEnable(GU_LIGHT1); sceGuFinish(); sceGuSync(0,0); sceDisplayWaitVblankStart(); sceGuDisplay(GU_TRUE); // run sample int val = 0; while(running()) { sceGuStart(GU_DIRECT,list); // clear screen sceGuClearColor(0xff554433); sceGuClearDepth(0); sceGuClear(GU_COLOR_BUFFER_BIT|GU_DEPTH_BUFFER_BIT); // setup lights ScePspFVector3 light_dir = { 1.0f, 1.0f, 1.0f }; // GU_DIRECTIONAL // GU_POINTLIGHT sceGuLight(0, GU_POINTLIGHT, GU_DIFFUSE, &light_dir); sceGuLightColor(0, GU_DIFFUSE, 0xffffffff); sceGuAmbient(0x00202020); light_dir.x = -light_dir.x; light_dir.y = -light_dir.y; light_dir.z = -light_dir.z; sceGuLight(1, GU_DIRECTIONAL, GU_DIFFUSE_AND_SPECULAR, &light_dir); sceGuLightColor(1, GU_DIFFUSE, 0xff7f7f7f); // setup matrices for cube sceGumMatrixMode(GU_PROJECTION); sceGumLoadIdentity(); sceGumPerspective(75.0f,16.0f/9.0f,0.5f,1000.0f); sceGumMatrixMode(GU_VIEW); sceGumLoadIdentity(); sceGumMatrixMode(GU_MODEL); sceGumLoadIdentity(); { ScePspFVector3 pos = { 0, 0, -5.0f }; ScePspFVector3 rot = { val * 0.79f * (GU_PI/180.0f), val * 0.98f * (GU_PI/180.0f), val * 1.32f * (GU_PI/180.0f) }; sceGumTranslate(&pos); sceGumRotateXYZ(&rot); } // setup texture //sceGuTexMode(GU_PSM_4444,0,0,0); // sceGuTexImage(0,64,64,64,logo_start); //sceGuTexFunc(GU_TFX_ADD,GU_TCC_RGB); //sceGuTexEnvColor(0xffff00); //sceGuTexFilter(GU_LINEAR,GU_LINEAR); //sceGuTexScale(1.0f,1.0f); //sceGuTexOffset(0.0f,0.0f); //sceGuAmbientColor(0xff7f7f7f); // draw cube sceGuColor(0xffffff); sceGumDrawArray(GU_TRIANGLES, GU_TEXTURE_32BITF|GU_NORMAL_32BITF|GU_VERTEX_32BITF|GU_INDEX_16BIT|GU_TRANSFORM_3D, idx_count, idx_buf, vert_buf); pspDebugScreenSetXY(0, 0); pspDebugScreenPrintf("v: %d", vert_count); pspDebugScreenSetXY(0, 1); pspDebugScreenPrintf("i: %d", idx_count); sceGuFinish(); sceGuSync(0,0); sceDisplayWaitVblankStart(); sceGuSwapBuffers(); val++; } sceGuTerm(); // Release buffers free(vert_buf); free(idx_buf); sceKernelExitGame(); return 0; }
int main(int argc, char* argv[]) { setupCallbacks(); // setup GU void* fbp0 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* fbp1 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* zbp = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_4444); sceGuInit(); sceGuStart(GU_DIRECT,list); sceGuDrawBuffer(GU_PSM_8888,fbp0,BUF_WIDTH); sceGuDispBuffer(SCR_WIDTH,SCR_HEIGHT,fbp1,BUF_WIDTH); sceGuDepthBuffer(zbp,BUF_WIDTH); sceGuOffset(2048 - (SCR_WIDTH/2),2048 - (SCR_HEIGHT/2)); sceGuViewport(2048,2048,SCR_WIDTH,SCR_HEIGHT); sceGuDepthRange(0xc350,0x2710); sceGuScissor(0,0,SCR_WIDTH,SCR_HEIGHT); sceGuEnable(GU_SCISSOR_TEST); sceGuDepthFunc(GU_GEQUAL); sceGuEnable(GU_DEPTH_TEST); sceGuFrontFace(GU_CW); sceGuShadeModel(GU_SMOOTH); // sceGuEnable(GU_CULL_FACE); sceGuEnable(GU_CLIP_PLANES); sceGuFinish(); sceGuSync(0,0); sceDisplayWaitVblankStart(); sceGuDisplay(GU_TRUE); setupSH(); indicesSH(); // run sample int val = 0; while(running()) { sceGuStart(GU_DIRECT,list); // clear screen sceGuClearColor(0x000000); sceGuClearDepth(0); sceGuClear(GU_COLOR_BUFFER_BIT|GU_DEPTH_BUFFER_BIT); // light settings sceGuEnable(GU_LIGHTING); sceGuEnable(GU_LIGHT0); sceGuEnable(GU_LIGHT1); sceGuEnable(GU_LIGHT2); sceGuLightMode(1); { unsigned int i; for (i = 0; i < 3; ++i) { sceGuLight(i,GU_DIRECTIONAL,GU_DIFFUSE_AND_SPECULAR,&lsettings[i].position); sceGuLightColor(i,GU_DIFFUSE,lsettings[i].diffuse); sceGuLightColor(i,GU_SPECULAR,lsettings[i].specular); sceGuLightAtt(i,0.0f,1.0f,0.0f); } sceGuSpecular(12.0f); sceGuAmbient(0x000000); } // setup matrices sceGumMatrixMode(GU_PROJECTION); sceGumLoadIdentity(); sceGumPerspective(75.0f,16.0f/9.0f,0.5f,1000.0f); sceGumMatrixMode(GU_VIEW); { ScePspFVector3 pos = { 0, 0, -5.0f }; sceGumLoadIdentity(); sceGumTranslate(&pos); } sceGumMatrixMode(GU_MODEL); sceGumLoadIdentity(); { ScePspFVector3 rot = { val * 0.79f * (GU_PI/180.0f), val * 0.98f * (GU_PI/180.0f), val * 1.32f * (GU_PI/180.0f) }; sceGumRotateXYZ(&rot); } // setup texture sceGuAmbientColor(0xffffffff); // draw renderSH(parametersSH); sceGuFinish(); sceGuSync(0,0); sceDisplayWaitVblankStart(); sceGuSwapBuffers(); val++; if ((val%600) == 0) { unsigned int i; for (i = 0; i < 8; ++i) parametersSH[i] = (int)((rand() / ((float)RAND_MAX)) * 6.0f); } } sceGuTerm(); sceKernelExitGame(); return 0; }
int main(int argc, char* argv[]) { pspDebugScreenInit(); setupCallbacks(); // setup GU void* fbp0 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* fbp1 = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_8888); void* zbp = getStaticVramBuffer(BUF_WIDTH,SCR_HEIGHT,GU_PSM_4444); sceGuInit(); sceGuStart(GU_DIRECT,list); sceGuDrawBuffer(GU_PSM_8888,fbp0,BUF_WIDTH); sceGuDispBuffer(SCR_WIDTH,SCR_HEIGHT,fbp1,BUF_WIDTH); sceGuDepthBuffer(zbp,BUF_WIDTH); sceGuOffset(2048 - (SCR_WIDTH/2),2048 - (SCR_HEIGHT/2)); sceGuViewport(2048,2048,SCR_WIDTH,SCR_HEIGHT); sceGuDepthRange(65535,0); sceGuScissor(0,0,SCR_WIDTH,SCR_HEIGHT); sceGuEnable(GU_SCISSOR_TEST); sceGuFinish(); sceGuSync(0,0); sceDisplayWaitVblankStart(); sceGuDisplay(GU_TRUE); int val = 0; gettimeofday(&base_time,0); while(running()) { struct Vertex* vertices; struct timeval tv; sceGuStart(GU_DIRECT,list); // clear screen sceGuClearColor(0); sceGuClearDepth(0); sceGuClear(GU_COLOR_BUFFER_BIT|GU_DEPTH_BUFFER_BIT); // draw triangle 1 (normal) sceGuColor(0xffffffff); vertices = (struct Vertex*)sceGuGetMemory(3*sizeof(struct Vertex)); vertices[0].x = (SCR_WIDTH/2) + cosf(val * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[0].y = (SCR_HEIGHT/2) + sinf(val * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[0].z = 0; vertices[1].x = (SCR_WIDTH/2) + cosf((val+120) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[1].y = (SCR_HEIGHT/2) + sinf((val+120) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[1].z = 0; vertices[2].x = (SCR_WIDTH/2) + cosf((val+240) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[2].y = (SCR_HEIGHT/2) + sinf((val+240) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[2].z = 0; sceGuDrawArray(GU_TRIANGLES,GU_VERTEX_32BITF|GU_TRANSFORM_2D,3,0,vertices); // draw triangle 2 (affected by logic op) sceGuEnable(GU_COLOR_LOGIC_OP); sceGuLogicalOp(curr_state); sceGuColor(0xffff00ff); vertices = (struct Vertex*)sceGuGetMemory(3*sizeof(struct Vertex)); vertices[0].x = (SCR_WIDTH/2) + cosf((val*1.1f) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[0].y = (SCR_HEIGHT/2) + sinf((val*1.1f) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[0].z = 0; vertices[1].x = (SCR_WIDTH/2) + cosf((val*1.1f+120) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[1].y = (SCR_HEIGHT/2) + sinf((val*1.1f+120) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[1].z = 0; vertices[2].x = (SCR_WIDTH/2) + cosf((val*1.1f+240) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[2].y = (SCR_HEIGHT/2) + sinf((val*1.1f+240) * (GU_PI/180)) * (SCR_HEIGHT/2); vertices[2].z = 0; sceGuDrawArray(GU_TRIANGLES,GU_VERTEX_32BITF|GU_TRANSFORM_2D,3,0,vertices); sceGuDisable(GU_COLOR_LOGIC_OP); sceGuFinish(); sceGuSync(0,0); gettimeofday(&tv,0); if ((tv.tv_sec-base_time.tv_sec) > TIME_SLICE) { curr_state = (curr_state + 1) & 15; base_time = tv; } sceDisplayWaitVblankStart(); sceGuSwapBuffers(); pspDebugScreenSetXY(0,0); pspDebugScreenPrintf("%s",names[curr_state]); val++; } sceGuTerm(); sceKernelExitGame(); return 0; }
void* getStaticVramTexture(unsigned int width, unsigned int height, unsigned int psm) { void* result = getStaticVramBuffer(width,height,psm); return (void*)(((unsigned int)result) + ((unsigned int)sceGeEdramGetAddr())); }