/* Copyright (C) 2015 Wildfire Games. * This file is part of 0 A.D. * * 0 A.D. is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * 0 A.D. is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with 0 A.D. If not, see . */ #include "precompiled.h" #include #include "MiniMap.h" #include "graphics/GameView.h" #include "graphics/LOSTexture.h" #include "graphics/MiniPatch.h" #include "graphics/Terrain.h" #include "graphics/TerrainTextureEntry.h" #include "graphics/TerrainTextureManager.h" #include "graphics/TerritoryTexture.h" #include "gui/GUI.h" #include "gui/GUIManager.h" #include "lib/bits.h" #include "lib/external_libraries/libsdl.h" #include "lib/ogl.h" #include "lib/timer.h" #include "ps/ConfigDB.h" #include "ps/Game.h" #include "ps/Profile.h" #include "ps/World.h" #include "ps/XML/Xeromyces.h" #include "renderer/Renderer.h" #include "renderer/WaterManager.h" #include "scriptinterface/ScriptInterface.h" #include "simulation2/Simulation2.h" #include "simulation2/components/ICmpMinimap.h" #include "simulation2/system/ParamNode.h" bool g_GameRestarted = false; // Set max drawn entities to UINT16_MAX for now, which is more than enough // TODO: we should be cleverer about drawing them to reduce clutter const u16 MAX_ENTITIES_DRAWN = 65535; static unsigned int ScaleColor(unsigned int color, float x) { unsigned int r = unsigned(float(color & 0xff) * x); unsigned int g = unsigned(float((color>>8) & 0xff) * x); unsigned int b = unsigned(float((color>>16) & 0xff) * x); return (0xff000000 | b | g<<8 | r<<16); } CMiniMap::CMiniMap() : m_TerrainTexture(0), m_TerrainData(0), m_MapSize(0), m_Terrain(0), m_TerrainDirty(true), m_MapScale(1.f), m_EntitiesDrawn(0), m_IndexArray(GL_STATIC_DRAW), m_VertexArray(GL_DYNAMIC_DRAW), m_NextBlinkTime(0.0), m_PingDuration(25.0), m_BlinkState(false) { AddSetting(GUIST_CColor, "fov_wedge_color"); AddSetting(GUIST_CStrW, "tooltip"); AddSetting(GUIST_CStr, "tooltip_style"); m_Clicking = false; m_MouseHovering = false; // Register Relax NG validator CXeromyces::AddValidator(g_VFS, "pathfinder", "simulation/data/pathfinder.rng"); // Get the maximum height for unit passage in water. CParamNode externalParamNode; CParamNode::LoadXML(externalParamNode, L"simulation/data/pathfinder.xml", "pathfinder"); const CParamNode pathingSettings = externalParamNode.GetChild("Pathfinder").GetChild("PassabilityClasses"); if (pathingSettings.GetChild("default").IsOk() && pathingSettings.GetChild("default").GetChild("MaxWaterDepth").IsOk()) m_ShallowPassageHeight = pathingSettings.GetChild("default").GetChild("MaxWaterDepth").ToFloat(); else m_ShallowPassageHeight = 0.0f; m_AttributePos.type = GL_FLOAT; m_AttributePos.elems = 2; m_VertexArray.AddAttribute(&m_AttributePos); m_AttributeColor.type = GL_UNSIGNED_BYTE; m_AttributeColor.elems = 4; m_VertexArray.AddAttribute(&m_AttributeColor); m_VertexArray.SetNumVertices(MAX_ENTITIES_DRAWN); m_VertexArray.Layout(); m_IndexArray.SetNumVertices(MAX_ENTITIES_DRAWN); m_IndexArray.Layout(); VertexArrayIterator index = m_IndexArray.GetIterator(); for (u16 i = 0; i < MAX_ENTITIES_DRAWN; ++i) *index++ = i; m_IndexArray.Upload(); m_IndexArray.FreeBackingStore(); VertexArrayIterator attrPos = m_AttributePos.GetIterator(); VertexArrayIterator attrColor = m_AttributeColor.GetIterator(); for (u16 i = 0; i < MAX_ENTITIES_DRAWN; ++i) { (*attrColor)[0] = 0; (*attrColor)[1] = 0; (*attrColor)[2] = 0; (*attrColor)[3] = 0; ++attrColor; (*attrPos)[0] = -10000.0f; (*attrPos)[1] = -10000.0f; ++attrPos; } m_VertexArray.Upload(); double blinkDuration = 1.0; // Tests won't have config initialised if (CConfigDB::IsInitialised()) { CFG_GET_VAL("gui.session.minimap.pingduration", m_PingDuration); CFG_GET_VAL("gui.session.minimap.blinkduration", blinkDuration); } m_HalfBlinkDuration = blinkDuration/2; } CMiniMap::~CMiniMap() { Destroy(); } void CMiniMap::HandleMessage(SGUIMessage& Message) { switch (Message.type) { case GUIM_MOUSE_PRESS_LEFT: if (m_MouseHovering) { SetCameraPos(); m_Clicking = true; } break; case GUIM_MOUSE_RELEASE_LEFT: if (m_MouseHovering && m_Clicking) SetCameraPos(); m_Clicking = false; break; case GUIM_MOUSE_DBLCLICK_LEFT: if (m_MouseHovering && m_Clicking) SetCameraPos(); m_Clicking = false; break; case GUIM_MOUSE_ENTER: m_MouseHovering = true; break; case GUIM_MOUSE_LEAVE: m_Clicking = false; m_MouseHovering = false; break; case GUIM_MOUSE_RELEASE_RIGHT: CMiniMap::FireWorldClickEvent(SDL_BUTTON_RIGHT, 1); break; case GUIM_MOUSE_DBLCLICK_RIGHT: CMiniMap::FireWorldClickEvent(SDL_BUTTON_RIGHT, 2); break; case GUIM_MOUSE_MOTION: if (m_MouseHovering && m_Clicking) SetCameraPos(); break; case GUIM_MOUSE_WHEEL_DOWN: case GUIM_MOUSE_WHEEL_UP: Message.Skip(); break; default: break; } } bool CMiniMap::MouseOver() { // Get the mouse position. CPos mousePos = GetMousePos(); // Get the position of the center of the minimap. CPos minimapCenter = CPos(m_CachedActualSize.left + m_CachedActualSize.GetWidth() / 2.0, m_CachedActualSize.bottom - m_CachedActualSize.GetHeight() / 2.0); // Take the magnitude of the difference of the mouse position and minimap center. double distFromCenter = sqrt(pow((mousePos.x - minimapCenter.x), 2) + pow((mousePos.y - minimapCenter.y), 2)); // If the distance is less then the radius of the minimap (half the width) the mouse is over the minimap. if (distFromCenter < m_CachedActualSize.GetWidth() / 2.0) return true; else return false; } void CMiniMap::GetMouseWorldCoordinates(float& x, float& z) { // Determine X and Z according to proportion of mouse position and minimap CPos mousePos = GetMousePos(); float px = (mousePos.x - m_CachedActualSize.left) / m_CachedActualSize.GetWidth(); float py = (m_CachedActualSize.bottom - mousePos.y) / m_CachedActualSize.GetHeight(); float angle = GetAngle(); // Scale world coordinates for shrunken square map x = TERRAIN_TILE_SIZE * m_MapSize * (m_MapScale * (cos(angle)*(px-0.5) - sin(angle)*(py-0.5)) + 0.5); z = TERRAIN_TILE_SIZE * m_MapSize * (m_MapScale * (cos(angle)*(py-0.5) + sin(angle)*(px-0.5)) + 0.5); } void CMiniMap::SetCameraPos() { CTerrain* terrain = g_Game->GetWorld()->GetTerrain(); CVector3D target; GetMouseWorldCoordinates(target.X, target.Z); target.Y = terrain->GetExactGroundLevel(target.X, target.Z); g_Game->GetView()->MoveCameraTarget(target); } float CMiniMap::GetAngle() { CVector3D cameraIn = m_Camera->m_Orientation.GetIn(); return -atan2(cameraIn.X, cameraIn.Z); } void CMiniMap::FireWorldClickEvent(int UNUSED(button), int UNUSED(clicks)) { JSContext* cx = g_GUI->GetActiveGUI()->GetScriptInterface()->GetContext(); JSAutoRequest rq(cx); float x, z; GetMouseWorldCoordinates(x, z); JS::RootedValue coords(cx); g_GUI->GetActiveGUI()->GetScriptInterface()->Eval("({})", &coords); g_GUI->GetActiveGUI()->GetScriptInterface()->SetProperty(coords, "x", x, false); g_GUI->GetActiveGUI()->GetScriptInterface()->SetProperty(coords, "z", z, false); ScriptEvent("worldclick", coords); } // This sets up and draws the rectangle on the minimap // which represents the view of the camera in the world. void CMiniMap::DrawViewRect(CMatrix3D transform) { // Compute the camera frustum intersected with a fixed-height plane. // Use the water height as a fixed base height, which should be the lowest we can go float h = g_Renderer.GetWaterManager()->m_WaterHeight; const float width = m_CachedActualSize.GetWidth(); const float height = m_CachedActualSize.GetHeight(); const float invTileMapSize = 1.0f / float(TERRAIN_TILE_SIZE * m_MapSize); CVector3D hitPt[4]; hitPt[0] = m_Camera->GetWorldCoordinates(0, g_Renderer.GetHeight(), h); hitPt[1] = m_Camera->GetWorldCoordinates(g_Renderer.GetWidth(), g_Renderer.GetHeight(), h); hitPt[2] = m_Camera->GetWorldCoordinates(g_Renderer.GetWidth(), 0, h); hitPt[3] = m_Camera->GetWorldCoordinates(0, 0, h); float ViewRect[4][2]; for (int i = 0; i < 4; ++i) { // convert to minimap space ViewRect[i][0] = (width * hitPt[i].X * invTileMapSize); ViewRect[i][1] = (height * hitPt[i].Z * invTileMapSize); } float viewVerts[] = { ViewRect[0][0], -ViewRect[0][1], ViewRect[1][0], -ViewRect[1][1], ViewRect[2][0], -ViewRect[2][1], ViewRect[3][0], -ViewRect[3][1] }; // Enable Scissoring to restrict the rectangle to only the minimap. glScissor( m_CachedActualSize.left / g_GuiScale, g_Renderer.GetHeight() - m_CachedActualSize.bottom / g_GuiScale, width / g_GuiScale, height / g_GuiScale); glEnable(GL_SCISSOR_TEST); glLineWidth(2.0f); CShaderDefines lineDefines; lineDefines.Add(str_MINIMAP_LINE, str_1); CShaderTechniquePtr tech = g_Renderer.GetShaderManager().LoadEffect(str_minimap, g_Renderer.GetSystemShaderDefines(), lineDefines); tech->BeginPass(); CShaderProgramPtr shader = tech->GetShader(); shader->Uniform(str_transform, transform); shader->Uniform(str_color, 1.0f, 0.3f, 0.3f, 1.0f); shader->VertexPointer(2, GL_FLOAT, 0, viewVerts); shader->AssertPointersBound(); if (!g_Renderer.m_SkipSubmit) glDrawArrays(GL_LINE_LOOP, 0, 4); tech->EndPass(); glLineWidth(1.0f); glDisable(GL_SCISSOR_TEST); } struct MinimapUnitVertex { u8 r, g, b, a; float x, y; }; // Adds a vertex to the passed VertexArray static void inline addVertex(const MinimapUnitVertex& v, VertexArrayIterator& attrColor, VertexArrayIterator& attrPos) { (*attrColor)[0] = v.r; (*attrColor)[1] = v.g; (*attrColor)[2] = v.b; (*attrColor)[3] = v.a; ++attrColor; (*attrPos)[0] = v.x; (*attrPos)[1] = v.y; ++attrPos; } void CMiniMap::DrawTexture(CShaderProgramPtr shader, float coordMax, float angle, float x, float y, float x2, float y2, float z) { // Rotate the texture coordinates (0,0)-(coordMax,coordMax) around their center point (m,m) // Scale square maps to fit in circular minimap area const float s = sin(angle) * m_MapScale; const float c = cos(angle) * m_MapScale; const float m = coordMax / 2.f; float quadTex[] = { m*(-c + s + 1.f), m*(-c + -s + 1.f), m*(c + s + 1.f), m*(-c + s + 1.f), m*(c + -s + 1.f), m*(c + s + 1.f), m*(c + -s + 1.f), m*(c + s + 1.f), m*(-c + -s + 1.f), m*(c + -s + 1.f), m*(-c + s + 1.f), m*(-c + -s + 1.f) }; float quadVerts[] = { x, y, z, x2, y, z, x2, y2, z, x2, y2, z, x, y2, z, x, y, z }; shader->TexCoordPointer(GL_TEXTURE0, 2, GL_FLOAT, 0, quadTex); shader->VertexPointer(3, GL_FLOAT, 0, quadVerts); shader->AssertPointersBound(); if (!g_Renderer.m_SkipSubmit) glDrawArrays(GL_TRIANGLES, 0, 6); } // TODO: render the minimap in a framebuffer and just draw the frambuffer texture // most of the time, updating the framebuffer twice a frame. // Here it updates as ping-pong either texture or vertex array each sec to lower gpu stalling // (those operations cause a gpu sync, which slows down the way gpu works) void CMiniMap::Draw() { PROFILE3("render minimap"); // The terrain isn't actually initialized until the map is loaded, which // happens when the game is started, so abort until then. if (!(GetGUI() && g_Game && g_Game->IsGameStarted())) return; CSimulation2* sim = g_Game->GetSimulation2(); CmpPtr cmpRangeManager(*sim, SYSTEM_ENTITY); ENSURE(cmpRangeManager); // Set our globals in case they hadn't been set before m_Camera = g_Game->GetView()->GetCamera(); m_Terrain = g_Game->GetWorld()->GetTerrain(); m_Width = (u32)(m_CachedActualSize.right - m_CachedActualSize.left); m_Height = (u32)(m_CachedActualSize.bottom - m_CachedActualSize.top); m_MapSize = m_Terrain->GetVerticesPerSide(); m_TextureSize = (GLsizei)round_up_to_pow2((size_t)m_MapSize); m_MapScale = (cmpRangeManager->GetLosCircular() ? 1.f : 1.414f); if (!m_TerrainTexture || g_GameRestarted) CreateTextures(); // only update 2x / second // (note: since units only move a few pixels per second on the minimap, // we can get away with infrequent updates; this is slow) // TODO: Update all but camera at same speed as simulation static double last_time; const double cur_time = timer_Time(); const bool doUpdate = cur_time - last_time > 0.5; if (doUpdate) { last_time = cur_time; if (m_TerrainDirty) RebuildTerrainTexture(); } const float x = m_CachedActualSize.left, y = m_CachedActualSize.bottom; const float x2 = m_CachedActualSize.right, y2 = m_CachedActualSize.top; const float z = GetBufferedZ(); const float texCoordMax = (float)(m_MapSize - 1) / (float)m_TextureSize; const float angle = GetAngle(); const float unitScale = (cmpRangeManager->GetLosCircular() ? 1.f : m_MapScale/2.f); // Disable depth updates to prevent apparent z-fighting-related issues // with some drivers causing units to get drawn behind the texture. glDepthMask(0); CShaderProgramPtr shader; CShaderTechniquePtr tech; CShaderDefines baseDefines; baseDefines.Add(str_MINIMAP_BASE, str_1); tech = g_Renderer.GetShaderManager().LoadEffect(str_minimap, g_Renderer.GetSystemShaderDefines(), baseDefines); tech->BeginPass(); shader = tech->GetShader(); // Draw the main textured quad shader->BindTexture(str_baseTex, m_TerrainTexture); const CMatrix3D baseTransform = GetDefaultGuiMatrix(); CMatrix3D baseTextureTransform; baseTextureTransform.SetIdentity(); shader->Uniform(str_transform, baseTransform); shader->Uniform(str_textureTransform, baseTextureTransform); DrawTexture(shader, texCoordMax, angle, x, y, x2, y2, z); // Draw territory boundaries glEnable(GL_BLEND); CTerritoryTexture& territoryTexture = g_Game->GetView()->GetTerritoryTexture(); shader->BindTexture(str_baseTex, territoryTexture.GetTexture()); const CMatrix3D* territoryTransform = territoryTexture.GetMinimapTextureMatrix(); shader->Uniform(str_transform, baseTransform); shader->Uniform(str_textureTransform, *territoryTransform); DrawTexture(shader, 1.0f, angle, x, y, x2, y2, z); tech->EndPass(); // Draw the LOS quad in black, using alpha values from the LOS texture CLOSTexture& losTexture = g_Game->GetView()->GetLOSTexture(); CShaderDefines losDefines; losDefines.Add(str_MINIMAP_LOS, str_1); tech = g_Renderer.GetShaderManager().LoadEffect(str_minimap, g_Renderer.GetSystemShaderDefines(), losDefines); tech->BeginPass(); shader = tech->GetShader(); shader->BindTexture(str_baseTex, losTexture.GetTexture()); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); const CMatrix3D* losTransform = losTexture.GetMinimapTextureMatrix(); shader->Uniform(str_transform, baseTransform); shader->Uniform(str_textureTransform, *losTransform); DrawTexture(shader, 1.0f, angle, x, y, x2, y2, z); tech->EndPass(); glDisable(GL_BLEND); PROFILE_START("minimap units"); CShaderDefines pointDefines; pointDefines.Add(str_MINIMAP_POINT, str_1); tech = g_Renderer.GetShaderManager().LoadEffect(str_minimap, g_Renderer.GetSystemShaderDefines(), pointDefines); tech->BeginPass(); shader = tech->GetShader(); shader->Uniform(str_transform, baseTransform); shader->Uniform(str_pointSize, 3.f); CMatrix3D unitMatrix; unitMatrix.SetIdentity(); // Center the minimap on the origin of the axis of rotation. unitMatrix.Translate(-(x2 - x) / 2.f, -(y2 - y) / 2.f, 0.f); // Rotate the map. unitMatrix.RotateZ(angle); // Scale square maps to fit. unitMatrix.Scale(unitScale, unitScale, 1.f); // Move the minimap back to it's starting position. unitMatrix.Translate((x2 - x) / 2.f, (y2 - y) / 2.f, 0.f); // Move the minimap to it's final location. unitMatrix.Translate(x, y, z); // Apply the gui matrix. unitMatrix *= GetDefaultGuiMatrix(); // Load the transform into the shader. shader->Uniform(str_transform, unitMatrix); const float sx = (float)m_Width / ((m_MapSize - 1) * TERRAIN_TILE_SIZE); const float sy = (float)m_Height / ((m_MapSize - 1) * TERRAIN_TILE_SIZE); CSimulation2::InterfaceList ents = sim->GetEntitiesWithInterface(IID_Minimap); if (doUpdate) { VertexArrayIterator attrPos = m_AttributePos.GetIterator(); VertexArrayIterator attrColor = m_AttributeColor.GetIterator(); m_EntitiesDrawn = 0; MinimapUnitVertex v; std::vector pingingVertices; pingingVertices.reserve(MAX_ENTITIES_DRAWN / 2); if (cur_time > m_NextBlinkTime) { m_BlinkState = !m_BlinkState; m_NextBlinkTime = cur_time + m_HalfBlinkDuration; } entity_pos_t posX, posZ; for (CSimulation2::InterfaceList::const_iterator it = ents.begin(); it != ents.end(); ++it) { ICmpMinimap* cmpMinimap = static_cast(it->second); if (cmpMinimap->GetRenderData(v.r, v.g, v.b, posX, posZ)) { ICmpRangeManager::ELosVisibility vis = cmpRangeManager->GetLosVisibility(it->first, g_Game->GetPlayerID()); if (vis != ICmpRangeManager::VIS_HIDDEN) { v.a = 255; v.x = posX.ToFloat() * sx; v.y = -posZ.ToFloat() * sy; // Check minimap pinging to indicate something if (m_BlinkState && cmpMinimap->CheckPing(cur_time, m_PingDuration)) { v.r = 255; // ping color is white v.g = 255; v.b = 255; pingingVertices.push_back(v); } else { addVertex(v, attrColor, attrPos); ++m_EntitiesDrawn; } } } } // Add the pinged vertices at the end, so they are drawn on top for (size_t v = 0; v < pingingVertices.size(); ++v) { addVertex(pingingVertices[v], attrColor, attrPos); ++m_EntitiesDrawn; } ENSURE(m_EntitiesDrawn < MAX_ENTITIES_DRAWN); m_VertexArray.Upload(); } m_VertexArray.PrepareForRendering(); if (m_EntitiesDrawn > 0) { #if !CONFIG2_GLES if (g_Renderer.GetRenderPath() == CRenderer::RP_SHADER) glEnable(GL_VERTEX_PROGRAM_POINT_SIZE); #endif u8* indexBase = m_IndexArray.Bind(); u8* base = m_VertexArray.Bind(); const GLsizei stride = (GLsizei)m_VertexArray.GetStride(); shader->VertexPointer(2, GL_FLOAT, stride, base + m_AttributePos.offset); shader->ColorPointer(4, GL_UNSIGNED_BYTE, stride, base + m_AttributeColor.offset); shader->AssertPointersBound(); if (!g_Renderer.m_SkipSubmit) glDrawElements(GL_POINTS, (GLsizei)(m_EntitiesDrawn), GL_UNSIGNED_SHORT, indexBase); g_Renderer.GetStats().m_DrawCalls++; CVertexBuffer::Unbind(); #if !CONFIG2_GLES if (g_Renderer.GetRenderPath() == CRenderer::RP_SHADER) glDisable(GL_VERTEX_PROGRAM_POINT_SIZE); #endif } tech->EndPass(); DrawViewRect(unitMatrix); PROFILE_END("minimap units"); // Reset depth mask glDepthMask(1); } void CMiniMap::CreateTextures() { Destroy(); // Create terrain texture glGenTextures(1, &m_TerrainTexture); g_Renderer.BindTexture(0, m_TerrainTexture); // Initialise texture with solid black, for the areas we don't // overwrite with glTexSubImage2D later u32* texData = new u32[m_TextureSize * m_TextureSize]; for (ssize_t i = 0; i < m_TextureSize * m_TextureSize; ++i) texData[i] = 0xFF000000; glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, m_TextureSize, m_TextureSize, 0, GL_RGBA, GL_UNSIGNED_BYTE, texData); delete[] texData; m_TerrainData = new u32[(m_MapSize - 1) * (m_MapSize - 1)]; glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); // Rebuild and upload both of them RebuildTerrainTexture(); } void CMiniMap::RebuildTerrainTexture() { u32 x = 0; u32 y = 0; u32 w = m_MapSize - 1; u32 h = m_MapSize - 1; float waterHeight = g_Renderer.GetWaterManager()->m_WaterHeight; m_TerrainDirty = false; for (u32 j = 0; j < h; ++j) { u32* dataPtr = m_TerrainData + ((y + j) * (m_MapSize - 1)) + x; for (u32 i = 0; i < w; ++i) { float avgHeight = ( m_Terrain->GetVertexGroundLevel((int)i, (int)j) + m_Terrain->GetVertexGroundLevel((int)i+1, (int)j) + m_Terrain->GetVertexGroundLevel((int)i, (int)j+1) + m_Terrain->GetVertexGroundLevel((int)i+1, (int)j+1) ) / 4.0f; if (avgHeight < waterHeight && avgHeight > waterHeight - m_ShallowPassageHeight) { // shallow water *dataPtr++ = 0xffc09870; } else if (avgHeight < waterHeight) { // Set water as constant color for consistency on different maps *dataPtr++ = 0xffa07850; } else { int hmap = ((int)m_Terrain->GetHeightMap()[(y + j) * m_MapSize + x + i]) >> 8; int val = (hmap / 3) + 170; u32 color = 0xFFFFFFFF; CMiniPatch* mp = m_Terrain->GetTile(x + i, y + j); if (mp) { CTerrainTextureEntry* tex = mp->GetTextureEntry(); if (tex) { // If the texture can't be loaded yet, set the dirty flags // so we'll try regenerating the terrain texture again soon if(!tex->GetTexture()->TryLoad()) m_TerrainDirty = true; color = tex->GetBaseColor(); } } *dataPtr++ = ScaleColor(color, float(val) / 255.0f); } } } // Upload the texture g_Renderer.BindTexture(0, m_TerrainTexture); glTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, m_MapSize - 1, m_MapSize - 1, GL_RGBA, GL_UNSIGNED_BYTE, m_TerrainData); } void CMiniMap::Destroy() { if (m_TerrainTexture) { glDeleteTextures(1, &m_TerrainTexture); m_TerrainTexture = 0; } SAFE_ARRAY_DELETE(m_TerrainData); }