void TitleScreen::Draw() { GHScreen::Draw(); MFView_Push(); MFRect rect; rect.x = (MFDisplay_GetAspectRatio() >= 1.5) ? -106.0f : 0.0f; rect.y = 0.0f; rect.width = (MFDisplay_GetAspectRatio() >= 1.5) ? 852.0f : 640.0f; rect.height = 480.0f; MFView_SetOrtho(&rect); MFPrimitive_DrawUntexturedQuad(20, 20, 640-40, 480-40, MakeVector(0,0,0,0.8f)); CenterText(30, 34, MFVector::yellow, "Main Menu", pHeading); float height = TEXT_HEIGHT; float y = 90-height; float x = 55.0f; // MFFont_DrawText(pText, , y+=height, 20, MFVector::white, "H - Enter help screen"); // CenterText(rect.height - 20 - 54, 44, MFVector::red, "Press ESC to continue", pFancy); MFView_Pop(); }
void DebugMenu_Draw() { if(MFInput_Read(Button_XB_RTrig, IDD_Gamepad)) return; MFView_Push(); MFView_SetOrtho(); if(debugMenuEnabled) pCurrentMenu->Draw(); MFView_Pop(); }
void dBThemeScreen::Draw() { MFRenderer_ClearScreen(MFRCF_All, clearColour); MFView_Push(); MFRect rect = { 0.f, 0.f, 1280, 720 }; MFView_SetOrtho(&rect); dBEntity *pE = NULL; while(pE = entityPool.Iterate(pE)) pE->Draw(); MFView_Pop(); }
void Game_Draw() { MFCALLSTACK; // set clear colour and clear the screen MFRenderer_SetClearColour(0.f, 0.f, 0.2f, 1.f); MFRenderer_ClearScreen(); // push current view onto the stack MFView_Push(); // set orthographic projection MFView_SetOrtho(); // render some text MFFont_DrawText2(MFFont_GetDebugFont(), 200.f, 200.f, 50.f, MFVector::one, "Hello World!"); // pop the current view MFView_Pop(); }
void Game_Draw() { MFCALLSTACK; MFRenderer_SetClearColour(0.f, 0.f, 0.2f, 1.f); MFRenderer_ClearScreen(); // Set identity camera (no camera) MFView_Push(); MFView_SetAspectRatio(MFDisplay_GetNativeAspectRatio()); MFView_SetProjection(); MFMaterial_SetMaterial(MFMaterial_GetStockMaterial(MFMat_White)); // set the world matrix to identity MFMatrix world = MFMatrix::identity; // move the box into the scene (along the z axis) world.Translate(MakeVector(0, 0, 5)); // increment rotation static float rotation = 0.0f; rotation += MFSystem_TimeDelta(); // rotate the box world.RotateYPR(rotation, rotation * 2.0f, rotation * 0.5f); // begin rendering the box MFPrimitive(PT_TriList); MFSetMatrix(world); // begin rendering 12 triangles (12 * 3 vertices) MFBegin(3 * 12); // draw a bunch of triangles MFSetColour(1,0,0,1); MFSetPosition(-1,-1, -1); MFSetPosition(-1, 1, -1); MFSetPosition( 1, 1, -1); MFSetPosition(-1,-1, -1); MFSetPosition( 1, 1, -1); MFSetPosition( 1,-1, -1); MFSetColour(0,1,0,1); MFSetPosition(-1,-1,1); MFSetPosition( 1,-1,1); MFSetPosition( 1, 1,1); MFSetPosition(-1,-1,1); MFSetPosition( 1, 1,1); MFSetPosition(-1, 1,1); MFSetColour(0,0,1,1); MFSetPosition( 1,-1,1); MFSetPosition( 1,-1,-1); MFSetPosition( 1, 1,-1); MFSetPosition( 1,-1,1); MFSetPosition( 1, 1,-1); MFSetPosition( 1, 1,1); MFSetColour(1,0,1,1); MFSetPosition(-1,-1,1); MFSetPosition(-1, 1,1); MFSetPosition(-1, 1,-1); MFSetPosition(-1,-1,1); MFSetPosition(-1, 1,-1); MFSetPosition(-1,-1,-1); MFSetColour(1,1,0,1); MFSetPosition(-1, 1,1); MFSetPosition( 1, 1,1); MFSetPosition( 1, 1,-1); MFSetPosition(-1, 1,1); MFSetPosition( 1, 1,-1); MFSetPosition(-1, 1,-1); MFSetColour(0,1,1,1); MFSetPosition(-1,-1,1); MFSetPosition(-1,-1,-1); MFSetPosition( 1,-1,-1); MFSetPosition(-1,-1,1); MFSetPosition( 1,-1,-1); MFSetPosition( 1,-1,1); MFEnd(); MFRect disp; MFDisplay_GetDisplayRect(&disp); MFView_SetOrtho(&disp); pUI->Draw(); MFView_Pop(); }
void MFCallstack_Draw() { MFCALLSTACK; if(drawCallstack) { const MFDisplaySettings *pDisplaySettings = MFDisplay_GetDisplaySettings(); float width = (float)pDisplaySettings->width; float height = (float)pDisplaySettings->height; float xoffset = width / 10.0f; float yoffset = height / 6.0f; MFView_Push(); MFRect rect = { 0.f, 0.f, width, height }; MFView_SetOrtho(&rect); float rtcFreq = 1000000.f / (float)MFSystem_GetRTCFrequency(); MFVector callstackPos = MakeVector(xoffset, yoffset, 0.f, 0.f); // sort the calls qsort(gpProfiles, gNumProfileFunctions, sizeof(gpProfiles[0]), MFCallstack_SortPred); // if(!drawCallstackMeter) { // just draw the callstack profiling information.. MFPrimitive_DrawUntexturedQuad(callstackPos.x - 10.f, callstackPos.y - 10.f, (width - callstackPos.x) + 10, callstackPos.y + (float)gNumProfileFunctions*16.0f + 10, MakeVector(0, 0, 0, 0.8f)); for(int a=0; a<gNumProfileFunctions; a++) { uint32 microseconds = uint32((float)gpProfiles[a]->totalTime * rtcFreq); uint32 percent = uint32((float)microseconds / 166.66666f); // MFVector colour = gProfileColours[gpProfiles[a]->functionColour]; MFVector colour = MFVector::one; MFFont_DrawTextf(MFFont_GetDebugFont(), callstackPos, 16.0f, colour, "%s", gpProfiles[a]->pFunctionName); MFFont_DrawTextf(MFFont_GetDebugFont(), callstackPos + MakeVector((width - xoffset) - 250.0f, 0, 0), 16.0f, colour, "- %dus (%d%%) %d calls", microseconds, percent, gpProfiles[a]->numCalls); callstackPos.y += 16.0f; } } /* else { // draw a meter up the top of the screen representing the frame.. MFPrimitive_DrawUntexturedQuad(callstackPos.x - 10.f, callstackPos.y - 10.f, width - callstackPos.x + 10, callstackPos.y + (float)(gNumProfileTotals+1)*16.0f + 18, MakeVector(0, 0, 0, 0.8f)); MFVector meterPos = MakeVector(xoffset - 8.f, yoffset*0.5f - 15.0f, 0.0f); MFVector meterDimensions = MakeVector(width - (xoffset-8.0f)*2.0f, 20.0f, 0.0f); // draw the meter container MFPrimitive_DrawUntexturedQuad(meterPos.x - 2.0f, meterPos.y - 2.0f, meterPos.x + meterDimensions.x + 2.0f, meterPos.y + meterDimensions.y + 2.0f, MakeVector(1.0f, 1.0f, 1.0f, 0.8f)); MFPrimitive_DrawUntexturedQuad(meterPos.x, meterPos.y, meterPos.x + meterDimensions.x, meterPos.y + meterDimensions.y, MakeVector(0.0f, 0.0f, 0.0f, 1.0f)); // draw the overhead counter uint32 frameDuration = uint32(gBeginTime - gLastBeginTime); float frameTime = (float)frameDuration * rtcFreq; MFCallstackInternal_DrawMeterBlock(meterPos, meterDimensions, (float)(gEndTime - gLastBeginTime) / (float)frameTime, 1.0f, MakeVector(0.0f, 1.0f, 1.0f, 1.0f)); MFCallstackInternal_DrawMeterLabel(callstackPos, MakeVector(0.0f, 1.0f, 1.0f, 1.0f), "Frame Overhead/VSync", NULL); callstackPos.y += 24.0f; // draw all the totals for(int a=0; a<gNumProfileTotals; a++) { uint32 microseconds = uint32((float)gpProfiles[a]->totalTime * rtcFreq); uint32 percent = uint32((float)microseconds / 166.66666f); MFCallstackInternal_DrawMeterLabel(callstackPos, gProfileColours[a % gProfileColourCount], gProfileTotals[a].pFunctionName, MFStr("- %dus (%d%%) %d calls", microseconds, percent, gProfileTotals[a].numCalls)); callstackPos.y += 16.0f; } // draw all the function profiles float totalTime = (float)(gBeginTime - gLastBeginTime); for(int a=0; a<gNumProfileResults; a++) { int colour = MFCallstackInternal_GetTotalIndex(a); MFCallstackInternal_DrawMeterBlock(meterPos, meterDimensions, (float)(gProfileResults[a].startTime - gLastBeginTime) / totalTime, (float)(gProfileResults[a].endTime - gLastBeginTime) / totalTime, gProfileColours[colour % gProfileColourCount]); } } */ MFView_Pop(); } }
//--------------------------------------------------------------------------------------------------------------------- MF_API void MFPrimitive_EndBlitter() { MFEnd(); MFView_Pop(); }
MF_API void MFParticleSystem_Draw(MFParticleSystem *pParticleSystem) { int numParticles = pParticleSystem->particles.GetLength(); if(numParticles == 0) return; // render particles MFView_Push(); MFMatrix ltv = MFView_GetWorldToViewMatrix(); MFView_SetCameraMatrix(MFMatrix::identity); // update and draw each particle if(pParticleSystem->params.rotationRate != 0.0f) { MFParticleSystem_DrawRotating(pParticleSystem, ltv); MFView_Pop(); return; } float fadeStart = pParticleSystem->params.life - pParticleSystem->params.fadeDelay; MFMaterial_SetMaterial(pParticleSystem->pMaterial); MFPrimitive(PT_QuadList, 0); MFBegin(numParticles * 2); MFParticle **ppI = pParticleSystem->particles.Begin(); while(*ppI) { MFParticle *pParticle = *ppI; float dt = MFSystem_TimeDelta(); pParticle->size += pParticleSystem->params.scaleRate * dt; pParticle->velocity += pParticleSystem->params.force * dt; pParticle->pos += pParticle->velocity * dt; float halfSize = pParticle->size * 0.5f; float alpha = MFMin(pParticle->life / fadeStart, 1.0f); MFVector pos = ApplyMatrixH(pParticle->pos, ltv); MFSetColourV(MakeVector(pParticle->colour, pParticle->colour.w * alpha)); MFSetTexCoord1(0, 0); MFSetPosition(pos.x - halfSize, pos.y + halfSize, pos.z); MFSetTexCoord1(1, 1); MFSetPosition(pos.x + halfSize, pos.y - halfSize, pos.z); pParticle->life -= dt; if(pParticle->life < 0.0f) pParticleSystem->particles.Destroy(ppI); ppI++; } MFEnd(); MFView_Pop(); }
void Fretboard::Draw(float time, dBChart *pSong, int track) { MFCALLSTACKc; MFView_Push(); MFRect rect; MFView_GetViewport(&rect); float aspect = rect.width / rect.height; aspect = MFClamp(0.82f, aspect, 2.0f); MFView_SetAspectRatio(aspect); if(viewPoint == 0) { // incoming MFView_ConfigureProjection(MFDEGREES(65.0f)/aspect, 1.0f, 100.0f); // Setup the Camera in 3D space. MFMatrix cameraMatrix; MFVector start = MakeVector( 0, 8, 3 ); MFVector dir = MakeVector( 0, 5, -8 ); dir = (dir-start) * (1.0f/1.777777777f); cameraMatrix.LookAt(start + dir*aspect, MakeVector(0.0f, 0.0f, 5.0f)); MFView_SetCameraMatrix(cameraMatrix); } else if(viewPoint == 1) { // overhead MFView_ConfigureProjection(MFDEGREES(45.0f), 1.0f, 100.0f); /* float aspect = MFDisplay_GetNativeAspectRatio(); MFView_SetAspectRatio(aspect); MFRect projRect; projRect.y = 15; projRect.height = -30; projRect.x = -projRect.y * aspect; projRect.width = -projRect.height * aspect; MFView_SetOrtho(&projRect); */ // Setup the Camera in 3D space. MFMatrix cameraMatrix; cameraMatrix.LookAt(MakeVector(0, 30, 10), MakeVector(0, 0, 10), MakeVector(0, 0, 1)); MFView_SetCameraMatrix(cameraMatrix); } else if(viewPoint == 2) { // overhead MFView_ConfigureProjection(MFDEGREES(45.0f), 1.0f, 100.0f); /* float aspect = MFDisplay_GetNativeAspectRatio(); MFView_SetAspectRatio(aspect); MFRect projRect; projRect.y = 15; projRect.height = -30; projRect.x = -projRect.y * aspect; projRect.width = -projRect.height * aspect; MFView_SetOrtho(&projRect); */ // Setup the Camera in 3D space. MFMatrix cameraMatrix; cameraMatrix.LookAt(MakeVector(0, 20, 13), MakeVector(0, 0, 13), MakeVector(-1, 0, 0)); MFView_SetCameraMatrix(cameraMatrix); } MFView_SetProjection(); MFMaterial *pFB = pSong->pFretboard ? pSong->pFretboard : pFretboard; MFMaterial_SetMaterial(pFB); MFPrimitive(PT_TriStrip, 0); int start = -4; int end = 60; int fadeStart = end - 10; float fretboardRepeat = 15.0f; float fretboardWidth = 7.0f; float columnWidth = fretboardWidth / 5.0f; float ringBorder = 0.1f; // draw the fretboard... MFBegin(((end-start) / 4) * 2 + 2); MFSetColourV(MFVector::white); float halfFB = fretboardWidth*0.5f; float offset = time*scrollSpeed; float topTime = time + end/scrollSpeed; float bottomTime = time + start/scrollSpeed; int a; float textureOffset = fmodf(offset, fretboardRepeat); for(a=start; a<end; a+=4) { float z = (float)a; MFSetTexCoord1(1.0f, 1.0f - (z+textureOffset) / fretboardRepeat); MFSetPosition(halfFB, 0.0f, z); MFSetTexCoord1(0.0f, 1.0f - (z+textureOffset) / fretboardRepeat); MFSetPosition(-halfFB, 0.0f, z); } float z = (float)a; MFSetTexCoord1(1.0f, 1.0f - (z+textureOffset) / fretboardRepeat); MFSetPosition(halfFB, 0.0f, z); MFSetTexCoord1(0.0f, 1.0f - (z+textureOffset) / fretboardRepeat); MFSetPosition(-halfFB, 0.0f, z); MFEnd(); // draw the selection region MFMaterial_SetMaterial(pFrets); MFPrimitive(PT_TriStrip, 0); if(gEditor.selectStart != gEditor.selectEnd) { float selectStartTime = GETSECONDS(pSong->CalculateTimeOfTick(gEditor.selectStart)); float selectEndTime = GETSECONDS(pSong->CalculateTimeOfTick(gEditor.selectEnd)); if(selectStartTime < topTime && selectEndTime > bottomTime) { selectStartTime = (MFMax(bottomTime, selectStartTime) - time) * scrollSpeed; selectEndTime = (MFMin(topTime, selectEndTime) - time) * scrollSpeed; MFBegin(4); MFSetColour(1.0f, 0.0f, 0.0f, 0.5f); MFSetPosition(-halfFB, 0.0f, selectEndTime); MFSetPosition(halfFB, 0.0f, selectEndTime); MFSetPosition(-halfFB, 0.0f, selectStartTime); MFSetPosition(halfFB, 0.0f, selectStartTime); MFEnd(); } } // draw the fretboard edges and bar lines const float barWidth = 0.2f; MFMaterial_SetMaterial(pBar); MFPrimitive(PT_TriStrip, 0); MFBegin(4); MFSetColour(0.0f, 0.0f, 0.0f, 0.8f); MFSetTexCoord1(0,0); MFSetPosition(-halfFB, 0.0f, barWidth); MFSetTexCoord1(1,0); MFSetPosition(halfFB, 0.0f, barWidth); MFSetTexCoord1(0,1); MFSetPosition(-halfFB, 0.0f, -barWidth); MFSetTexCoord1(1,1); MFSetPosition(halfFB, 0.0f, -barWidth); MFEnd(); MFMaterial_SetMaterial(pEdge); MFPrimitive(PT_TriStrip, 0); MFBegin(34); MFSetColour(0.0f, 0.0f, 0.0f, 0.3f); for(int col=1; col<5; col++) { if(col > 1) MFSetPosition(-halfFB + columnWidth*(float)col - 0.02f, 0.0f, (float)end); MFSetTexCoord1(0,0); MFSetPosition(-halfFB + columnWidth*(float)col - 0.02f, 0.0f, (float)end); MFSetTexCoord1(1,0); MFSetPosition(-halfFB + columnWidth*(float)col + 0.02f, 0.0f, (float)end); MFSetTexCoord1(0,1); MFSetPosition(-halfFB + columnWidth*(float)col - 0.02f, 0.0f, (float)start); MFSetTexCoord1(1,1); MFSetPosition(-halfFB + columnWidth*(float)col + 0.02f, 0.0f, (float)start); MFSetPosition(-halfFB + columnWidth*(float)col + 0.02f, 0.0f, (float)start); } MFSetColourV(MFVector::white); MFSetPosition(-halfFB - 0.1f, 0.0f, (float)end); MFSetTexCoord1(0,0); MFSetPosition(-halfFB - 0.1f, 0.0f, (float)end); MFSetTexCoord1(1,0); MFSetPosition(-halfFB + 0.1f, 0.0f, (float)end); MFSetTexCoord1(0,1); MFSetPosition(-halfFB - 0.1f, 0.0f, (float)start); MFSetTexCoord1(1,1); MFSetPosition(-halfFB + 0.1f, 0.0f, (float)start); MFSetPosition(-halfFB + 0.1f, 0.0f, (float)start); MFSetPosition(halfFB - 0.1f, 0.0f, (float)end); MFSetTexCoord1(0,0); MFSetPosition(halfFB - 0.1f, 0.0f, (float)end); MFSetTexCoord1(1,0); MFSetPosition(halfFB + 0.1f, 0.0f, (float)end); MFSetTexCoord1(0,1); MFSetPosition(halfFB - 0.1f, 0.0f, (float)start); MFSetTexCoord1(1,1); MFSetPosition(halfFB + 0.1f, 0.0f, (float)start); MFEnd(); // draw the frets.... MFMaterial_SetMaterial(pBar); MFPrimitive(PT_TriStrip, 0); int bottomTick = pSong->CalculateTickAtTime((int64)(bottomTime*1000000.0f)); int res = pSong->GetRes(); int ticks = bHalfFrets ? res/2 : res; int fretBeat = bottomTick + ticks - 1; fretBeat -= fretBeat % ticks; float fretTime = GETSECONDS(pSong->CalculateTimeOfTick(fretBeat)); while(fretTime < topTime) { bool halfBeat = (fretBeat % res) != 0; bool bar = false; if(!halfBeat) { GHEvent *pLastTS = pSong->sync.GetMostRecentEvent(GHE_TimeSignature, fretBeat); if(pLastTS) bar = ((fretBeat - pLastTS->tick) % (pLastTS->parameter*res)) == 0; else if(fretBeat == 0) bar = true; } float bw = bar ? barWidth : barWidth*0.5f; MFBegin(4); float position = (fretTime - time) * scrollSpeed; if(!halfBeat) MFSetColourV(MFVector::white); else MFSetColourV(MakeVector(1,1,1,0.3f)); MFSetTexCoord1(0,0); MFSetPosition(-halfFB, 0.0f, position + bw); MFSetTexCoord1(1,0); MFSetPosition(halfFB, 0.0f, position + bw); MFSetTexCoord1(0,1); MFSetPosition(-halfFB, 0.0f, position + -bw); MFSetTexCoord1(1,1); MFSetPosition(halfFB, 0.0f, position + -bw); MFEnd(); fretBeat += ticks; fretTime = GETSECONDS(pSong->CalculateTimeOfTick(fretBeat)); } // draw the notes... GHEventManager ¬eStream = pSong->notes[track]; GHEvent *pEv = noteStream.First(); int64 topTimeus = (int64)(topTime*1000000.0f); while(pEv && pEv->time < topTimeus) { if((pEv->event == GHE_Note || pEv->event == GHE_Special) && pEv->tick + pEv->parameter >= bottomTick) { float evTime = GETSECONDS(pEv->time); // TODO: we need to calculate the end of the hold... float noteEnd = evTime; if(pEv->parameter) noteEnd = GETSECONDS(pSong->CalculateTimeOfTick(pEv->tick + pEv->parameter)); if(pEv->event == GHE_Note && pEv->played != 1) { // draw a note int key = pEv->key; bool tap = false; // check if there is a previous note, and it is in range if(pEv->Prev() && pEv->Prev()->tick < pEv->tick && pEv->Prev()->tick > pEv->tick - (res/2) && pEv->Prev()->key != pEv->key && (!pEv->Next() || !(pEv->Next()->tick == pEv->tick)) && !pEv->Prev()->parameter && !(pEv->Prev()->Prev() && pEv->Prev()->Prev()->tick == pEv->Prev()->tick)) { tap = true; } int noteX = gConfig.controls.leftyFlip[0] ? 4-key : key; float position = (GETSECONDS(pEv->time) - time)*scrollSpeed; float xoffset = -halfFB + columnWidth*0.5f + (float)noteX*columnWidth; if(pEv->parameter) { MFMaterial_SetMaterial(pFrets); float whammyTop = (noteEnd - time)*scrollSpeed; MFPrimitive(PT_TriStrip, 0); // TODO: we could consider not drawing this part of the hold line.. seems reasonable that it terminates at the line... if(gEditor.state == GHPS_Stopped) { if(position < 0.0f) { MFBegin(4); MFSetColourV(gColours[key]); MFSetPosition(xoffset - 0.2f, 0.0f, MFMin(whammyTop, 0.0f)); MFSetPosition(xoffset + 0.2f, 0.0f, MFMin(whammyTop, 0.0f)); MFSetPosition(xoffset - 0.2f, 0.0f, position); MFSetPosition(xoffset + 0.2f, 0.0f, position); MFEnd(); } } if(whammyTop > 0.0f) { // this half could have waves cruising down it if we wanted to support the whammy... MFBegin(4); MFSetColourV(gColours[key]); MFSetPosition(xoffset - 0.2f, 0.0f, MFMin(whammyTop, (float)end)); MFSetPosition(xoffset + 0.2f, 0.0f, MFMin(whammyTop, (float)end)); MFSetPosition(xoffset - 0.2f, 0.0f, MFMax(position, 0.0f)); MFSetPosition(xoffset + 0.2f, 0.0f, MFMax(position, 0.0f)); MFEnd(); } } if(evTime >= bottomTime) { MFMatrix mat; mat.SetScale(MakeVector(0.5f/20, 0.5f/20, 0.5f/20)); mat.Translate(MakeVector(xoffset, 0.03f, position)); MFModel_SetWorldMatrix(pButton, mat); MFStateBlock *pSB = MFStateBlock_CreateTemporary(64); MFStateBlock_SetVector(pSB, MFSCV_DiffuseColour, pEv->played == -1 ? MakeVector(0.3f, 0.3f, 0.3f, 1.0f) : MFVector::white); // MFStateBlock_SetVector(pSB, MFSCV_DiffuseColour, position < 0.0f ? MakeVector(0.3f, 0.3f, 0.3f, 1.0f) : MFVector::white); // MFRenderer_SetRenderStateOverride(MFRS_MaterialOverride, (uint32&)(tap ? pButtonMat[key] : pButtonRing[key])); MFRenderer_AddModel(pButton, pSB, MFView_GetViewState()); // render the note time if(bRenderNoteTimes) { MFView_Push(); MFView_SetOrtho(&rect); MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(xoffset, 0.0f, position), &pos); pos.x += 16.0f; pos.y -= 26.0f; int minutes = (int)(pEv->time / 60000000); int seconds = (int)((pEv->time % 60000000) / 1000000); int milliseconds = (int)((pEv->time % 1000000) / 1000); MFFont_DrawTextf(pText, pos, 20.0f, MFVector::yellow, "%s: %d:%02d.%d\nTick: %g", MFTranslation_GetString(pStrings, TRACK_TIME), minutes, seconds, milliseconds, (float)pEv->tick/res); MFView_Pop(); } } } if(pEv->event == GHE_Special) { // static MFVector specialColours[3] = { MakeVector(1,0,0,1), MakeVector(1,1,0,1), MakeVector(0,0,1,1) }; // static float specialX[3] = { halfFB + 0.2f, halfFB + 1, -halfFB - 1 }; // static float specialWidth[3] = { 0.8f, 0.8f, 0.8f }; static MFVector specialColours[3] = { MakeVector(1,0,0,0.5f), MakeVector(1,1,0,0.5f), MakeVector(0,0,1,0.5f) }; static float specialX[3] = { -halfFB, halfFB - 0.8f, -halfFB }; static float specialWidth[3] = { 0.8f, 0.8f, fretboardWidth }; float bottom = (evTime - time)*scrollSpeed; float top = (noteEnd - time)*scrollSpeed; int key = pEv->key; MFMaterial_SetMaterial(pFrets); MFPrimitive(PT_TriStrip, 0); MFBegin(4); MFSetColourV(specialColours[key]); MFSetPosition(specialX[key], 0.0f, MFMin(top, (float)end)); MFSetPosition(specialX[key]+specialWidth[key], 0.0f, MFMin(top, (float)end)); MFSetPosition(specialX[key], 0.0f, MFMax(bottom, (float)start)); MFSetPosition(specialX[key]+specialWidth[key], 0.0f, MFMax(bottom, (float)start)); MFEnd(); } } pEv = pEv->Next(); } // MFRenderer_SetRenderStateOverride(MFRS_MaterialOverride, NULL); // draw circles at the bottom.. MFMaterial_SetMaterial(pRing); for(int a=0; a<5; a++) { DrawRing(-halfFB + (float)a*columnWidth + columnWidth*ringBorder, 0.0f, columnWidth*(1.0f-ringBorder*2)); } for(int a=0; a<5; a++) { dBControlType keys_righty[] = { dBCtrl_Edit_Note0, dBCtrl_Edit_Note1, dBCtrl_Edit_Note2, dBCtrl_Edit_Note3, dBCtrl_Edit_Note4 }; dBControlType keys_lefty[] = { dBCtrl_Edit_Note4, dBCtrl_Edit_Note3, dBCtrl_Edit_Note2, dBCtrl_Edit_Note1, dBCtrl_Edit_Note0 }; dBControlType *keys = gConfig.controls.leftyFlip[0] ? keys_lefty : keys_righty; int ringPos = gConfig.controls.leftyFlip[0] ? 4-a : a; MFMaterial_SetMaterial(pColourRing[a]); DrawRing(-halfFB + (float)ringPos*columnWidth, 0.0f, columnWidth, !TestControl(keys[a], GHCT_Hold)); } // render trigger particles MFParticleSystem_Draw(pParticles); // render text and stuff MFView_SetOrtho(&rect); pEv = pSong->sync.GetNextEvent(bottomTick); while(pEv && pEv->time < topTimeus) { float evTime = GETSECONDS(pEv->time); if(evTime > bottomTime) { if(pEv->event == GHE_BPM) { float position = (evTime - time) * scrollSpeed; MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(halfFB + 0.2f, 0.0f, position), &pos); pos.y -= 12.0f; MFFont_DrawTextf(pText, pos, 24.0f, MakeVector(0,0.5f,0,1), "%s: %g", MFTranslation_GetString(pStrings, TRACK_BPM), (float)pEv->parameter * 0.001f); } if(pEv->event == GHE_Anchor) { int minutes = (int)(pEv->time / 60000000); int seconds = (int)((pEv->time%60000000)/1000000); int milliseconds = (int)((pEv->time%1000000)/1000); float position = (evTime - time) * scrollSpeed; MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(halfFB + 0.2f, 0.0f, position), &pos); pos.y -= 12.0f; MFFont_DrawTextf(pText, pos, 24.0f, MakeVector(0,0.5f,0,1), "A: %02d:%02d.%03d\n %s: %g", minutes, seconds, milliseconds, MFTranslation_GetString(pStrings, TRACK_BPM), (float)pEv->parameter * 0.001f); } else if(pEv->event == GHE_TimeSignature) { float position = (evTime - time) * scrollSpeed; MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(-halfFB - 0.2f, 0.0f, position), &pos); const char *pString = MFStr("TS: %d/4", pEv->parameter); pos.x -= MFFont_GetStringWidth(pText, pString, 24.0f); pos.y -= 12.0f; MFFont_DrawTextf(pText, pos, 24.0f, MFVector::yellow, pString); } } pEv = pEv->Next(); } // render events pEv = pSong->events.GetNextEvent(bottomTick); int lastChecked = -1; float yEventOffset = -12.0f; while(pEv && pEv->time < topTimeus) { float evTime = GETSECONDS(pEv->time); if(evTime > bottomTime) { if(pEv->event == GHE_Event) { if(lastChecked != pEv->tick) { yEventOffset = -12.0f; lastChecked = pEv->tick; if(pSong->sync.FindEvent(GHE_TimeSignature, pEv->tick, 0)) { yEventOffset -= 24.0f; } } float position = (evTime - time) * scrollSpeed; MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(-halfFB - 0.2f, 0.0f, position), &pos); if(!MFString_CompareN(pEv->GetString(), "section ", 8)) { // draw a line across? pos.x -= MFFont_GetStringWidth(pText, &pEv->GetString()[8], 24.0f); pos.y += yEventOffset; MFFont_DrawTextf(pText, pos, 24.0f, MFVector::blue, &pEv->GetString()[8]); } else { pos.x -= MFFont_GetStringWidth(pText, pEv->GetString(), 24.0f); pos.y += yEventOffset; MFFont_DrawTextf(pText, pos, 24.0f, MFVector::white, pEv->GetString()); } yEventOffset -= 24.0f; } } pEv = pEv->Next(); } // render track events pEv = pSong->notes[track].GetNextEvent(bottomTick); lastChecked = -1; yEventOffset = -12.0f; while(pEv && pEv->time < topTimeus) { float evTime = GETSECONDS(pEv->time); if(evTime > bottomTime) { if(pEv->event == GHE_Event) { if(lastChecked != pEv->tick) { yEventOffset = -12.0f; lastChecked = pEv->tick; if(pSong->sync.FindEvent(GHE_TimeSignature, pEv->tick, 0)) { yEventOffset -= 24.0f; } GHEvent *pOther = pSong->events.FindEvent(GHE_Event, pEv->tick, 0); while(pOther && pOther->tick == pEv->tick) { yEventOffset -= 24.0f; pOther = pOther->Next(); } } float position = (evTime - time) * scrollSpeed; MFVector pos; MFView_TransformPoint3DTo2D(MakeVector(-halfFB - 0.2f, 0.0f, position), &pos); pos.x -= MFFont_GetStringWidth(pText, pEv->GetString(), 24.0f); pos.y += yEventOffset; MFFont_DrawTextf(pText, pos, 24.0f, MakeVector(0.6f, 0.8f, 1.0f, 1.0f), pEv->GetString()); yEventOffset -= 24.0f; } } pEv = pEv->Next(); } MFView_Pop(); }