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refactoring embark-assistant survey, 1.iteration 

- survey.cpp: replacing repeated double vector access with a reference in survey_mid_level_tile
develop
bseiller 2021-01-27 23:05:40 +01:00
parent 2d5eb9c29d
commit 6e012bb032
1 changed files with 53 additions and 52 deletions
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105
plugins/embark-assistant/survey.cpp
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@ -947,6 +947,7 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
for (uint8_t i = 0; i < 16; i++) {
for (uint8_t k = 0; k < 16; k++) {
embark_assist::defs::mid_level_tile &mid_level_tile = mlt->at(i).at(k);
max_soil_depth = -1;
offset = details->biome[i][k];
@ -954,23 +955,23 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
if (adjusted.x != x || adjusted.y != y)
{
mlt->at(i).at(k).biome_offset = offset;
mid_level_tile.biome_offset = offset;
}
else
{
mlt->at(i).at(k).biome_offset = 5;
mid_level_tile.biome_offset = 5;
}
survey_results->at(x).at(y).biome_index[mlt->at(i).at(k).biome_offset] =
survey_results->at(x).at(y).biome_index[mid_level_tile.biome_offset] =
world_data->region_map[adjusted.x][adjusted.y].region_id;
mlt->at(i).at(k).savagery_level = world_data->region_map[adjusted.x][adjusted.y].savagery / 33;
if (mlt->at(i).at(k).savagery_level == 3) {
mlt->at(i).at(k).savagery_level = 2;
mid_level_tile.savagery_level = world_data->region_map[adjusted.x][adjusted.y].savagery / 33;
if (mid_level_tile.savagery_level == 3) {
mid_level_tile.savagery_level = 2;
}
mlt->at(i).at(k).evilness_level = world_data->region_map[adjusted.x][adjusted.y].evilness / 33;
if (mlt->at(i).at(k).evilness_level == 3) {
mlt->at(i).at(k).evilness_level = 2;
mid_level_tile.evilness_level = world_data->region_map[adjusted.x][adjusted.y].evilness / 33;
if (mid_level_tile.evilness_level == 3) {
mid_level_tile.evilness_level = 2;
}
elevation = details->elevation[i][k];
@ -996,8 +997,8 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
base_z = elevation - 1;
features = details->features[i][k];
mlt->at(i).at(k).adamantine_level = -1;
mlt->at(i).at(k).magma_level = -1;
mid_level_tile.adamantine_level = -1;
mid_level_tile.magma_level = -1;
end_check_l = static_cast<uint16_t>(features.size());
for (size_t l = 0; l < end_check_l; l++) {
@ -1007,15 +1008,15 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
switch (world_data->feature_map[x / 16][y / 16].features->feature_init[x % 16][y % 16][feature->feature_idx]->getType())
{
case df::feature_type::deep_special_tube:
mlt->at(i).at(k).adamantine_level = world_data->feature_map[x / 16][y / 16].features->feature_init[x % 16][y % 16][feature->feature_idx]->start_depth;
mid_level_tile.adamantine_level = world_data->feature_map[x / 16][y / 16].features->feature_init[x % 16][y % 16][feature->feature_idx]->start_depth;
break;
case df::feature_type::magma_pool:
mlt->at(i).at(k).magma_level = 2 - world_data->feature_map[x / 16][y / 16].features->feature_init[x % 16][y % 16][feature->feature_idx]->start_depth;
mid_level_tile.magma_level = 2 - world_data->feature_map[x / 16][y / 16].features->feature_init[x % 16][y % 16][feature->feature_idx]->start_depth;
break;
case df::feature_type::volcano:
mlt->at(i).at(k).magma_level = 3;
mid_level_tile.magma_level = 3;
break;
default:
@ -1046,43 +1047,43 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
int16_t cur_shift = elevation + soil_erosion - 1;
aquifer = false;
mlt->at(i).at(k).aquifer = embark_assist::defs::Clear_Aquifer_Bits;
mlt->at(i).at(k).clay = false;
mlt->at(i).at(k).sand = false;
mlt->at(i).at(k).flux = false;
mlt->at(i).at(k).coal = false;
mid_level_tile.aquifer = embark_assist::defs::Clear_Aquifer_Bits;
mid_level_tile.clay = false;
mid_level_tile.sand = false;
mid_level_tile.flux = false;
mid_level_tile.coal = false;
if (max_soil_depth == 0) {
mlt->at(i).at(k).soil_depth = 0;
mid_level_tile.soil_depth = 0;
}
else {
mlt->at(i).at(k).soil_depth = geo_summary->at(world_data->region_map[adjusted.x][adjusted.y].geo_index).soil_size - soil_erosion;
mid_level_tile.soil_depth = geo_summary->at(world_data->region_map[adjusted.x][adjusted.y].geo_index).soil_size - soil_erosion;
}
mlt->at(i).at(k).offset = offset;
mlt->at(i).at(k).elevation = details->elevation[i][k];
mlt->at(i).at(k).river_size = embark_assist::defs::river_sizes::None;
mlt->at(i).at(k).river_elevation = 100;
mid_level_tile.offset = offset;
mid_level_tile.elevation = details->elevation[i][k];
mid_level_tile.river_size = embark_assist::defs::river_sizes::None;
mid_level_tile.river_elevation = 100;
if (details->rivers_vertical.active[i][k] != 0) {
mlt->at(i).at(k).river_size = river_size_of (details->rivers_vertical.x_max[i][k] - details->rivers_vertical.x_min[i][k] + 1);
mlt->at(i).at(k).river_elevation = details->rivers_vertical.elevation[i][k];
mid_level_tile.river_size = river_size_of (details->rivers_vertical.x_max[i][k] - details->rivers_vertical.x_min[i][k] + 1);
mid_level_tile.river_elevation = details->rivers_vertical.elevation[i][k];
}
else if (details->rivers_horizontal.active[i][k] != 0) {
mlt->at(i).at(k).river_size = river_size_of (details->rivers_horizontal.y_max[i][k] - details->rivers_horizontal.y_min[i][k] + 1);
mlt->at(i).at(k).river_elevation = details->rivers_horizontal.elevation[i][k];
mid_level_tile.river_size = river_size_of (details->rivers_horizontal.y_max[i][k] - details->rivers_horizontal.y_min[i][k] + 1);
mid_level_tile.river_elevation = details->rivers_horizontal.elevation[i][k];
}
if (mlt->at(i).at(k).river_size != embark_assist::defs::river_sizes::None &&
if (mid_level_tile.river_size != embark_assist::defs::river_sizes::None &&
world_tile->flags.is_set(df::region_map_entry_flags::is_brook)) {
mlt->at(i).at(k).river_size = embark_assist::defs::river_sizes::Brook;
mid_level_tile.river_size = embark_assist::defs::river_sizes::Brook;
}
if (tile->min_region_soil > mlt->at(i).at(k).soil_depth) {
tile->min_region_soil = mlt->at(i).at(k).soil_depth;
if (tile->min_region_soil > mid_level_tile.soil_depth) {
tile->min_region_soil = mid_level_tile.soil_depth;
}
if (tile->max_region_soil < mlt->at(i).at(k).soil_depth) {
tile->max_region_soil = mlt->at(i).at(k).soil_depth;
if (tile->max_region_soil < mid_level_tile.soil_depth) {
tile->max_region_soil = mid_level_tile.soil_depth;
}
end_check_l = static_cast<uint16_t>(world_data->geo_biomes[world_data->region_map[adjusted.x][adjusted.y].geo_index]->layers.size());
@ -1124,38 +1125,38 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
if (top_z >= bottom_z) {
last_bottom = bottom_z;
mlt->at(i).at(k).minerals[layer->mat_index] = true;
mid_level_tile.minerals[layer->mat_index] = true;
end_check_m = static_cast<uint16_t>(world->raws.inorganics[layer->mat_index]->metal_ore.mat_index.size());
for (uint16_t m = 0; m < end_check_m; m++) {
mlt->at(i).at(k).metals[world->raws.inorganics[layer->mat_index]->metal_ore.mat_index[m]] = true;
mid_level_tile.metals[world->raws.inorganics[layer->mat_index]->metal_ore.mat_index[m]] = true;
}
if (layer->type == df::geo_layer_type::SOIL ||
layer->type == df::geo_layer_type::SOIL_SAND) {
if (world->raws.inorganics[layer->mat_index]->flags.is_set(df::inorganic_flags::SOIL_SAND)) {
mlt->at(i).at(k).sand = true;
mid_level_tile.sand = true;
}
}
if (world->raws.inorganics[layer->mat_index]->economic_uses.size() > 0) {
mlt->at(i).at(k).economics[layer->mat_index] = true;
mid_level_tile.economics[layer->mat_index] = true;
end_check_m = static_cast<uint16_t>(world->raws.inorganics[layer->mat_index]->economic_uses.size());
for (uint16_t m = 0; m < end_check_m; m++) {
if (world->raws.inorganics[layer->mat_index]->economic_uses[m] == state->clay_reaction) {
mlt->at(i).at(k).clay = true;
mid_level_tile.clay = true;
}
else if (world->raws.inorganics[layer->mat_index]->economic_uses[m] == state->flux_reaction) {
mlt->at(i).at(k).flux = true;
mid_level_tile.flux = true;
}
}
for (uint16_t m = 0; m < state->coals.size(); m++) {
if (layer->mat_index == state->coals[m]) {
mlt->at(i).at(k).coal = true;
mid_level_tile.coal = true;
break;
}
}
@ -1164,31 +1165,31 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
end_check_m = static_cast<uint16_t>(layer->vein_mat.size());
for (uint16_t m = 0; m < end_check_m; m++) {
mlt->at(i).at(k).minerals[layer->vein_mat[m]] = true;
mid_level_tile.minerals[layer->vein_mat[m]] = true;
end_check_n = static_cast<uint16_t>(world->raws.inorganics[layer->vein_mat[m]]->metal_ore.mat_index.size());
for (uint16_t n = 0; n < end_check_n; n++) {
mlt->at(i).at(k).metals[world->raws.inorganics[layer->vein_mat[m]]->metal_ore.mat_index[n]] = true;
mid_level_tile.metals[world->raws.inorganics[layer->vein_mat[m]]->metal_ore.mat_index[n]] = true;
}
if (world->raws.inorganics[layer->vein_mat[m]]->economic_uses.size() > 0) {
mlt->at(i).at(k).economics[layer->vein_mat[m]] = true;
mid_level_tile.economics[layer->vein_mat[m]] = true;
end_check_n = static_cast<uint16_t>(world->raws.inorganics[layer->vein_mat[m]]->economic_uses.size());
for (uint16_t n = 0; n < end_check_n; n++) {
if (world->raws.inorganics[layer->vein_mat[m]]->economic_uses[n] == state->clay_reaction) {
mlt->at(i).at(k).clay = true;
mid_level_tile.clay = true;
}
else if (world->raws.inorganics[layer->vein_mat[m]]->economic_uses[n] == state->flux_reaction) {
mlt->at(i).at(k).flux = true;
mid_level_tile.flux = true;
}
}
for (uint16_t n = 0; n < state->coals.size(); n++) {
if (layer->vein_mat[m] == state->coals[n]) {
mlt->at(i).at(k).coal = true;
mid_level_tile.coal = true;
break;
}
}
@ -1202,16 +1203,16 @@ void embark_assist::survey::survey_mid_level_tile(embark_assist::defs::geo_data
}
}
if (!aquifer) {
mlt->at(i).at(k).aquifer = embark_assist::defs::None_Aquifer_Bit;
mid_level_tile.aquifer = embark_assist::defs::None_Aquifer_Bit;
}
else if (world_data->region_map[adjusted.x][adjusted.y].drainage % 20 == 7) {
mlt->at(i).at(k).aquifer = embark_assist::defs::Heavy_Aquifer_Bit;
mid_level_tile.aquifer = embark_assist::defs::Heavy_Aquifer_Bit;
}
else {
mlt->at(i).at(k).aquifer = embark_assist::defs::Light_Aquifer_Bit;
mid_level_tile.aquifer = embark_assist::defs::Light_Aquifer_Bit;
}
mlt->at(i).at(k).trees = tree_level_of(world_data->regions[world_data->region_map[adjusted.x][adjusted.y].region_id]->type,
mid_level_tile.trees = tree_level_of(world_data->regions[world_data->region_map[adjusted.x][adjusted.y].region_id]->type,
world_data->region_map[adjusted.x][adjusted.y].vegetation);
}
}