#include "Runtime/GuiSys/CAuiEnergyBarT01.hpp" #include "Runtime/CSimplePool.hpp" #include "Runtime/GuiSys/CGuiSys.hpp" #include "Runtime/GuiSys/CGuiWidgetDrawParms.hpp" namespace metaforce { CAuiEnergyBarT01::CAuiEnergyBarT01(const CGuiWidgetParms& parms, CSimplePool* sp, CAssetId txtrId) : CGuiWidget(parms), xb8_txtrId(txtrId) { if (g_GuiSys->GetUsageMode() != CGuiSys::EUsageMode::Two) { xbc_tex = sp->GetObj(SObjectTag{FOURCC('TXTR'), xb8_txtrId}); } } std::pair CAuiEnergyBarT01::DownloadBarCoordFunc(float t) { const float x = 12.5f * t - 6.25f; return {zeus::CVector3f{x, 0.f, -0.2f}, zeus::CVector3f{x, 0.f, 0.2f}}; } void CAuiEnergyBarT01::Update(float dt) { if (x100_shadowDrainDelayTimer > 0.f) { x100_shadowDrainDelayTimer = std::max(x100_shadowDrainDelayTimer - dt, 0.f); } if (xf8_filledEnergy < xf4_setEnergy) { if (xf1_wrapping) { xf8_filledEnergy -= dt * xe4_filledSpeed; if (xf8_filledEnergy < 0.f) { xf8_filledEnergy = std::max(xf4_setEnergy, xf8_filledEnergy + xe0_maxEnergy); xf1_wrapping = false; xfc_shadowEnergy = xe0_maxEnergy; } } else { xf8_filledEnergy = std::min(xf4_setEnergy, xf8_filledEnergy + dt * xe4_filledSpeed); } } else if (xf8_filledEnergy > xf4_setEnergy) { if (xf1_wrapping) { xf8_filledEnergy += dt * xe4_filledSpeed; if (xf8_filledEnergy > xe0_maxEnergy) { xf8_filledEnergy = std::min(xf4_setEnergy, xf8_filledEnergy - xe0_maxEnergy); xf1_wrapping = false; xfc_shadowEnergy = xf8_filledEnergy; } } else { xf8_filledEnergy = std::max(xf4_setEnergy, xf8_filledEnergy - dt * xe4_filledSpeed); } } if (xfc_shadowEnergy < xf8_filledEnergy) { xfc_shadowEnergy = xf8_filledEnergy; } else if (xfc_shadowEnergy > xf8_filledEnergy && x100_shadowDrainDelayTimer == 0.f) { xfc_shadowEnergy = std::max(xf8_filledEnergy, xfc_shadowEnergy - dt * xe8_shadowSpeed); } CGuiWidget::Update(dt); } void CAuiEnergyBarT01::Draw(const CGuiWidgetDrawParms& drawParms) { CGraphics::SetModelMatrix(x34_worldXF); if (!xbc_tex || !xbc_tex.IsLoaded() || xd8_coordFunc == nullptr) { return; } CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, false); CGraphics::SetAmbientColor(zeus::skWhite); CGraphics::SetBlendMode(ERglBlendMode::Blend, ERglBlendFactor::SrcAlpha, ERglBlendFactor::One, ERglLogicOp::Clear); const float filledT = xe0_maxEnergy > 0.f ? xf8_filledEnergy / xe0_maxEnergy : 0.f; const float shadowT = xe0_maxEnergy > 0.f ? xfc_shadowEnergy / xe0_maxEnergy : 0.f; zeus::CColor filledColor = xd0_filledColor; filledColor.a() *= drawParms.x0_alphaMod; filledColor *= xa8_color2; zeus::CColor shadowColor = xd4_shadowColor; shadowColor.a() *= drawParms.x0_alphaMod; shadowColor *= xa8_color2; zeus::CColor emptyColor = xcc_emptyColor; emptyColor.a() *= drawParms.x0_alphaMod; emptyColor *= xa8_color2; zeus::CColor useCol = emptyColor; for (u32 i = 0; i < 3; ++i) { float barOffT; if (i == 0) { barOffT = 0.f; } else if (i == 1) { barOffT = filledT; } else { barOffT = shadowT; } float barMaxT; if (i == 0) { barMaxT = filledT; } else if (i == 1) { barMaxT = shadowT; } else { barMaxT = 1.f; } if (i == 0) { useCol = filledColor; } else if (i == 1) { useCol = shadowColor; } else { useCol = emptyColor; } if (barOffT != barMaxT) { CGraphics::SetTevOp(ERglTevStage::Stage0, CTevCombiners::sTevPass805a5ebc); CGraphics::SetTevOp(ERglTevStage::Stage1, CTevCombiners::skPassThru); xbc_tex->Load(GX::TEXMAP0, EClampMode::Repeat); CGraphics::StreamBegin(GX::TRIANGLESTRIP); CGraphics::StreamColor(useCol); auto coords = xd8_coordFunc(barOffT); while (barOffT < barMaxT) { CGraphics::StreamTexcoord(barOffT, 0.f); CGraphics::StreamVertex(coords.first); CGraphics::StreamTexcoord(barOffT, 1.f); CGraphics::StreamVertex(coords.second); barOffT += xdc_tesselation; if (barOffT < barMaxT) { coords = xd8_coordFunc(barOffT); } else { coords = xd8_coordFunc(barMaxT); CGraphics::StreamTexcoord(barMaxT, 0.f); CGraphics::StreamVertex(coords.first); CGraphics::StreamTexcoord(barMaxT, 1.f); CGraphics::StreamVertex(coords.second); } } CGraphics::StreamEnd(); } } CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, true); } void CAuiEnergyBarT01::SetCurrEnergy(float e, ESetMode mode) { e = zeus::clamp(0.f, e, xe0_maxEnergy); if (e == xf4_setEnergy) { return; } if (xf0_alwaysResetDelayTimer || xf8_filledEnergy == xfc_shadowEnergy) { x100_shadowDrainDelayTimer = xec_shadowDrainDelay; } xf1_wrapping = mode == ESetMode::Wrapped; xf4_setEnergy = e; if (mode == ESetMode::Insta) { xf8_filledEnergy = xf4_setEnergy; } } void CAuiEnergyBarT01::SetMaxEnergy(float maxEnergy) { xe0_maxEnergy = maxEnergy; xf4_setEnergy = std::min(xe0_maxEnergy, xf4_setEnergy); xf8_filledEnergy = std::min(xe0_maxEnergy, xf8_filledEnergy); xfc_shadowEnergy = std::min(xe0_maxEnergy, xfc_shadowEnergy); } std::shared_ptr CAuiEnergyBarT01::Create(CGuiFrame* frame, CInputStream& in, CSimplePool* sp) { CGuiWidgetParms parms = ReadWidgetHeader(frame, in); auto tex = in.Get(); std::shared_ptr ret = std::make_shared(parms, sp, tex); ret->ParseBaseInfo(frame, in, parms); return ret; } } // namespace metaforce