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#include <mbgl/text/placement.hpp>
#include <mbgl/renderer/render_layer.hpp>
#include <mbgl/renderer/layers/render_symbol_layer.hpp>
#include <mbgl/renderer/render_tile.hpp>
#include <mbgl/tile/geometry_tile.cpp>
#include <mbgl/renderer/buckets/symbol_bucket.hpp>
#include <mbgl/renderer/bucket.hpp>
namespace mbgl {
OpacityState::OpacityState(bool placed_) : opacity(0), placed(placed_) {}
OpacityState::OpacityState(const OpacityState& prevState, float increment, bool placed_) :
opacity(std::fmax(0, std::fmin(1, prevState.opacity + (prevState.placed ? increment : -increment)))),
placed(placed_) {}
bool OpacityState::isHidden() const {
return opacity == 0 && !placed;
}
JointOpacityState::JointOpacityState(bool placedIcon, bool placedText) :
icon(OpacityState(placedIcon)),
text(OpacityState(placedText)) {}
JointOpacityState::JointOpacityState(const JointOpacityState& prevOpacityState, float increment, bool placedIcon, bool placedText) :
icon(OpacityState(prevOpacityState.icon, increment, placedIcon)),
text(OpacityState(prevOpacityState.text, increment, placedText)) {}
bool JointOpacityState::isHidden() const {
return icon.isHidden() && text.isHidden();
}
Placement::Placement(const TransformState& state_, MapMode mapMode_)
: collisionIndex(state_)
, state(state_)
, mapMode(mapMode_)
, recentUntil(TimePoint::min())
{}
void Placement::placeLayer(RenderSymbolLayer& symbolLayer, const mat4& projMatrix, bool showCollisionBoxes) {
std::unordered_set<uint32_t> seenCrossTileIDs;
for (RenderTile& renderTile : symbolLayer.renderTiles) {
if (!renderTile.tile.isRenderable()) {
continue;
}
auto bucket = renderTile.tile.getBucket(*symbolLayer.baseImpl);
assert(dynamic_cast<SymbolBucket*>(bucket));
SymbolBucket& symbolBucket = *reinterpret_cast<SymbolBucket*>(bucket);
auto& layout = symbolBucket.layout;
const float pixelsToTileUnits = renderTile.id.pixelsToTileUnits(1, state.getZoom());
const float scale = std::pow(2, state.getZoom() - renderTile.tile.id.overscaledZ);
const float textPixelRatio = util::EXTENT / (util::tileSize * renderTile.tile.id.overscaleFactor());
mat4 posMatrix;
state.matrixFor(posMatrix, renderTile.id);
matrix::multiply(posMatrix, projMatrix, posMatrix);
mat4 textLabelPlaneMatrix = getLabelPlaneMatrix(posMatrix,
layout.get<TextPitchAlignment>() == style::AlignmentType::Map,
layout.get<TextRotationAlignment>() == style::AlignmentType::Map,
state,
pixelsToTileUnits);
mat4 iconLabelPlaneMatrix = getLabelPlaneMatrix(posMatrix,
layout.get<IconPitchAlignment>() == style::AlignmentType::Map,
layout.get<IconRotationAlignment>() == style::AlignmentType::Map,
state,
pixelsToTileUnits);
placeLayerBucket(symbolBucket, posMatrix, textLabelPlaneMatrix, iconLabelPlaneMatrix, scale, textPixelRatio, showCollisionBoxes, seenCrossTileIDs);
}
}
void Placement::placeLayerBucket(
SymbolBucket& bucket,
const mat4& posMatrix,
const mat4& textLabelPlaneMatrix,
const mat4& iconLabelPlaneMatrix,
const float scale,
const float textPixelRatio,
const bool showCollisionBoxes,
std::unordered_set<uint32_t>& seenCrossTileIDs) {
auto partiallyEvaluatedTextSize = bucket.textSizeBinder->evaluateForZoom(state.getZoom());
auto partiallyEvaluatedIconSize = bucket.iconSizeBinder->evaluateForZoom(state.getZoom());
const bool iconWithoutText = !bucket.hasTextData() || bucket.layout.get<TextOptional>();
const bool textWithoutIcon = !bucket.hasIconData() || bucket.layout.get<IconOptional>();
for (auto& symbolInstance : bucket.symbolInstances) {
if (seenCrossTileIDs.count(symbolInstance.crossTileID) == 0) {
bool placeText = false;
bool placeIcon = false;
if (symbolInstance.placedTextIndex) {
PlacedSymbol& placedSymbol = bucket.text.placedSymbols.at(*symbolInstance.placedTextIndex);
const float fontSize = evaluateSizeForFeature(partiallyEvaluatedTextSize, placedSymbol);
placeText = collisionIndex.placeFeature(symbolInstance.textCollisionFeature,
posMatrix, textLabelPlaneMatrix, textPixelRatio,
placedSymbol, scale, fontSize,
bucket.layout.get<TextAllowOverlap>(),
bucket.layout.get<TextPitchAlignment>() == style::AlignmentType::Map,
showCollisionBoxes);
}
if (symbolInstance.placedIconIndex) {
PlacedSymbol& placedSymbol = bucket.icon.placedSymbols.at(*symbolInstance.placedIconIndex);
const float fontSize = evaluateSizeForFeature(partiallyEvaluatedIconSize, placedSymbol);
placeIcon = collisionIndex.placeFeature(symbolInstance.iconCollisionFeature,
posMatrix, iconLabelPlaneMatrix, textPixelRatio,
placedSymbol, scale, fontSize,
bucket.layout.get<IconAllowOverlap>(),
bucket.layout.get<IconPitchAlignment>() == style::AlignmentType::Map,
showCollisionBoxes);
}
// combine placements for icon and text
if (!iconWithoutText && !textWithoutIcon) {
placeText = placeIcon = placeText && placeIcon;
} else if (!textWithoutIcon) {
placeText = placeText && placeIcon;
} else if (!iconWithoutText) {
placeIcon = placeText && placeIcon;
}
if (placeText) {
collisionIndex.insertFeature(symbolInstance.textCollisionFeature, bucket.layout.get<TextIgnorePlacement>());
}
if (placeIcon) {
collisionIndex.insertFeature(symbolInstance.iconCollisionFeature, bucket.layout.get<IconIgnorePlacement>());
}
assert(symbolInstance.crossTileID != 0);
placements.emplace(symbolInstance.crossTileID, PlacementPair(placeText, placeIcon));
seenCrossTileIDs.insert(symbolInstance.crossTileID);
}
}
}
bool Placement::commit(const Placement& prevPlacement, TimePoint now) {
commitTime = now;
bool placementChanged = false;
float increment = mapMode == MapMode::Still ? 1.0 : std::chrono::duration<float>(commitTime - prevPlacement.commitTime) / Duration(std::chrono::milliseconds(300));
// add the opacities from the current placement, and copy their current values from the previous placement
for (auto& placementPair : placements) {
auto prevOpacity = prevPlacement.opacities.find(placementPair.first);
if (prevOpacity != prevPlacement.opacities.end()) {
opacities.emplace(placementPair.first, JointOpacityState(prevOpacity->second, increment, placementPair.second.icon, placementPair.second.text));
placementChanged = placementChanged ||
placementPair.second.icon != prevOpacity->second.icon.placed ||
placementPair.second.text != prevOpacity->second.text.placed;
} else {
opacities.emplace(placementPair.first, JointOpacityState(placementPair.second.icon, placementPair.second.text));
placementChanged = placementChanged || placementPair.second.icon || placementPair.second.text;
}
}
// copy and update values from the previous placement that aren't in the current placement but haven't finished fading
for (auto& prevOpacity : prevPlacement.opacities) {
if (opacities.find(prevOpacity.first) == opacities.end()) {
JointOpacityState jointOpacity(prevOpacity.second, increment, false, false);
if (!jointOpacity.isHidden()) {
opacities.emplace(prevOpacity.first, jointOpacity);
placementChanged = placementChanged || prevOpacity.second.icon.placed || prevOpacity.second.text.placed;
}
}
}
return placementChanged;
}
void Placement::updateLayerOpacities(RenderSymbolLayer& symbolLayer) {
std::set<uint32_t> seenCrossTileIDs;
for (RenderTile& renderTile : symbolLayer.renderTiles) {
if (!renderTile.tile.isRenderable()) {
continue;
}
auto bucket = renderTile.tile.getBucket(*symbolLayer.baseImpl);
assert(dynamic_cast<SymbolBucket*>(bucket));
SymbolBucket& symbolBucket = *reinterpret_cast<SymbolBucket*>(bucket);
updateBucketOpacities(symbolBucket, seenCrossTileIDs);
}
}
void Placement::updateBucketOpacities(SymbolBucket& bucket, std::set<uint32_t>& seenCrossTileIDs) {
if (bucket.hasTextData()) bucket.text.opacityVertices.clear();
if (bucket.hasIconData()) bucket.icon.opacityVertices.clear();
if (bucket.hasCollisionBoxData()) bucket.collisionBox.dynamicVertices.clear();
if (bucket.hasCollisionCircleData()) bucket.collisionCircle.dynamicVertices.clear();
for (SymbolInstance& symbolInstance : bucket.symbolInstances) {
auto opacityState = seenCrossTileIDs.count(symbolInstance.crossTileID) == 0 ?
getOpacity(symbolInstance.crossTileID) :
JointOpacityState(false, false);
seenCrossTileIDs.insert(symbolInstance.crossTileID);
if (symbolInstance.hasText) {
auto opacityVertex = SymbolOpacityAttributes::vertex(opacityState.text.placed, opacityState.text.opacity);
for (size_t i = 0; i < symbolInstance.horizontalGlyphQuads.size() * 4; i++) {
bucket.text.opacityVertices.emplace_back(opacityVertex);
}
for (size_t i = 0; i < symbolInstance.verticalGlyphQuads.size() * 4; i++) {
bucket.text.opacityVertices.emplace_back(opacityVertex);
}
if (symbolInstance.placedTextIndex) {
bucket.text.placedSymbols[*symbolInstance.placedTextIndex].hidden = opacityState.isHidden();
}
if (symbolInstance.placedVerticalTextIndex) {
bucket.text.placedSymbols[*symbolInstance.placedVerticalTextIndex].hidden = opacityState.isHidden();
}
}
if (symbolInstance.hasIcon) {
auto opacityVertex = SymbolOpacityAttributes::vertex(opacityState.icon.placed, opacityState.icon.opacity);
if (symbolInstance.iconQuad) {
bucket.icon.opacityVertices.emplace_back(opacityVertex);
bucket.icon.opacityVertices.emplace_back(opacityVertex);
bucket.icon.opacityVertices.emplace_back(opacityVertex);
bucket.icon.opacityVertices.emplace_back(opacityVertex);
}
if (symbolInstance.placedIconIndex) {
bucket.icon.placedSymbols[*symbolInstance.placedIconIndex].hidden = opacityState.isHidden();
}
}
auto updateCollisionBox = [&](const auto& feature, const bool placed) {
for (const CollisionBox& box : feature.boxes) {
if (feature.alongLine) {
auto dynamicVertex = CollisionBoxDynamicAttributes::vertex(placed, !box.used);
bucket.collisionCircle.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionCircle.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionCircle.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionCircle.dynamicVertices.emplace_back(dynamicVertex);
} else {
auto dynamicVertex = CollisionBoxDynamicAttributes::vertex(placed, false);
bucket.collisionBox.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionBox.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionBox.dynamicVertices.emplace_back(dynamicVertex);
bucket.collisionBox.dynamicVertices.emplace_back(dynamicVertex);
}
}
};
updateCollisionBox(symbolInstance.textCollisionFeature, opacityState.text.placed);
updateCollisionBox(symbolInstance.iconCollisionFeature, opacityState.icon.placed);
}
bucket.updateOpacity();
bucket.sortFeatures(state.getAngle());
}
JointOpacityState Placement::getOpacity(uint32_t crossTileSymbolID) const {
auto it = opacities.find(crossTileSymbolID);
if (it != opacities.end()) {
return it->second;
} else {
return JointOpacityState(false, false);
}
}
float Placement::symbolFadeChange(TimePoint now) const {
if (mapMode == MapMode::Still) {
return 1.0;
}
return std::chrono::duration<float>(now - commitTime) / Duration(std::chrono::milliseconds(300));
}
bool Placement::hasTransitions(TimePoint now) const {
return symbolFadeChange(now) < 1.0 || stale;
}
bool Placement::stillRecent(TimePoint now) const {
return mapMode == MapMode::Continuous && recentUntil > now;
}
void Placement::setRecent(TimePoint now) {
stale = false;
if (mapMode == MapMode::Continuous) {
// Only set in continuous mode because "now" isn't defined in still mode
recentUntil = now + Duration(std::chrono::milliseconds(300));
}
}
void Placement::setStale() {
stale = true;
}
const CollisionIndex& Placement::getCollisionIndex() const {
return collisionIndex;
}
} // namespace mbgl
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