perf: update DepotImageAnalyzer, use Fourier series and update quantity match

This commit is contained in:
Horror Proton
2023-01-04 20:29:11 +08:00
committed by MistEO
parent 9949c4d326
commit 91c3b72941
3 changed files with 91 additions and 142 deletions

View File

@@ -6692,8 +6692,8 @@
"roi": [
0,
0,
1060,
596
1093,
614
],
"roi_Doc": "作为截图的缩放尺寸使用",
"maskRange": [
@@ -6705,36 +6705,17 @@
"template": "empty.png",
"roi": [
0,
90,
219,
150
]
190,
156,
190
],
"roi_Doc": "center of item at 1280 * 720: [x_first (unknown), y_first, x_period, y_period]"
},
"DepotQuantity": {
"template": "empty.png",
"templThreshold": 5,
"templThreshold_Doc": "这里用来作为字间距阈值",
"specialParams": [
120
],
"specialParams_Doc": "背景色亮度值上限",
"roi": [
36,
69,
47,
20
],
"maskRange_Doc": "拿来做H通道的范围",
"maskRange": [
0,
180
],
"specificRect_Doc": "拿来做S、V通道的范围",
"specificRect": [
0,
35,
125,
255
110
]
},
"DepotBegin": {

View File

@@ -4,10 +4,13 @@
#include "Config/Miscellaneous/ItemConfig.h"
#include "Config/TaskData.h"
#include "Config/TemplResource.h"
#include "Utils/Logger.hpp"
#include "Vision/MatchImageAnalyzer.h"
#include "Vision/OcrWithPreprocessImageAnalyzer.h"
#include <numbers>
bool asst::DepotImageAnalyzer::analyze()
{
LogTraceFunction;
@@ -53,47 +56,56 @@ void asst::DepotImageAnalyzer::resize()
#endif
}
template <typename F>
cv::Mat asst::DepotImageAnalyzer::image_from_function(const cv::Size& size, const F& func)
{
auto result = cv::Mat1f { size, CV_32F };
for (int i = 0; i < result.cols; ++i)
for (int j = 0; j < result.rows; ++j) {
result.at<float>(j, i) = func(i, j);
}
return result;
}
bool asst::DepotImageAnalyzer::analyze_base_rect()
{
LogTraceFunction;
Rect base_roi = Task.get("DepotBaseRect")->roi;
ItemInfo base_item_info;
size_t pos = match_item(base_roi, base_item_info, 0ULL, false);
if (pos == NPos) {
return false;
}
const auto& base_rect = base_item_info.rect;
const auto& [base_x, base_y, base_w, base_h] = base_rect;
#ifdef ASST_DEBUG
cv::rectangle(m_image_draw_resized, make_rect<cv::Rect>(base_rect), cv::Scalar(0, 0, 255), 2);
#endif
static constexpr int tm_size = 183 * 720 / 1080;
// 每个材料之间有间隔,这里 高度 * 2 的 roi, 一定有一个完整的材料 + 一个不完整的材料。
// 所以识别结果只会有一个(除非这个间隔非常大)
const Rect vertical_rect(base_x, base_y + base_h, base_w, base_h * 2);
ItemInfo vertical_item_info;
pos = match_item(vertical_rect, vertical_item_info, pos + 1);
auto task_ptr = Task.get<MatchTaskInfo>("DepotBaseRect");
int x_period = task_ptr->roi.width * m_image_resized.cols / WindowWidthDefault;
int y_first = task_ptr->roi.y * m_image_resized.rows / WindowHeightDefault;
int y_period = task_ptr->roi.height * m_image_resized.rows / WindowHeightDefault;
#ifdef ASST_DEBUG
cv::rectangle(m_image_draw_resized, make_rect<cv::Rect>(vertical_item_info.rect), cv::Scalar(0, 0, 255), 2);
#endif
cv::Mat hist_x;
cv::Mat resized_gray;
cv::cvtColor(m_image_resized, resized_gray, cv::COLOR_RGB2GRAY);
cv::reduce(resized_gray, hist_x, 0, cv::REDUCE_AVG, CV_32F);
// 宽度 * 2同上
const Rect horizontal_roi(base_x + base_w, base_y, base_w * 2, base_h);
ItemInfo horizontal_item_info;
pos = match_item(horizontal_roi, horizontal_item_info, pos + 1);
cv::Mat sine_image = image_from_function({ resized_gray.cols, 1 }, [=](int x, int) -> float {
return static_cast<float>(std::sin(2. * std::numbers::pi_v<double> * x / x_period));
});
#ifdef ASST_DEBUG
cv::rectangle(m_image_draw_resized, make_rect<cv::Rect>(horizontal_item_info.rect), cv::Scalar(0, 0, 255), 2);
#endif
cv::Mat cosine_image = image_from_function({ resized_gray.cols, 1 }, [=](int x, int) -> float {
return static_cast<float>(std::cos(2. * std::numbers::pi_v<double> * x / x_period));
});
const int horizontal_spacing = horizontal_item_info.rect.x - (base_x + base_w);
const int vertical_spacing = vertical_item_info.rect.y - (base_y + base_h);
cv::Mat hist_sine;
cv::Mat hist_cosine;
cv::multiply(hist_x, sine_image, hist_sine);
cv::multiply(hist_x, cosine_image, hist_cosine);
for (int x = base_x; x <= m_image_resized.cols; x += (base_w + horizontal_spacing)) {
for (int y = base_y; y <= m_image_resized.rows; y += (base_h + vertical_spacing)) {
Rect item_roi = Rect(x, y, base_w, base_h);
const double s_v = cv::sum(hist_sine)[0];
const double c_v = cv::sum(hist_cosine)[0];
const double phase = std::atan2(s_v, c_v);
double x_first = phase / (2. * std::numbers::pi_v<double>)*x_period + x_period / 2.;
if (phase < 0) x_first += x_period;
for (int x = static_cast<int>(x_first); x <= m_image_resized.cols; x += x_period) {
for (int y = y_first; y <= m_image_resized.rows; y += y_period) {
Rect item_roi = Rect(x - tm_size / 2, y - tm_size / 2, tm_size, tm_size);
if (!m_resized_rect.include(item_roi)) {
continue;
}
@@ -123,7 +135,7 @@ bool asst::DepotImageAnalyzer::analyze_all_items()
std::string item_id = info.item_id;
m_match_begin_pos = cur_pos + 1;
info.quantity = match_quantity(info.rect);
info.quantity = match_quantity(info);
info.item_name = ItemData.get_item_name(item_id);
#ifdef ASST_DEBUG
cv::putText(m_image_draw_resized, item_id, cv::Point(roi.x, roi.y - 10), cv::FONT_HERSHEY_SIMPLEX, 0.5,
@@ -174,7 +186,11 @@ size_t asst::DepotImageAnalyzer::match_item(const Rect& roi, /* out */ ItemInfo&
size_t matched_index = NPos;
for (size_t index = begin_index, extra_count = 0; index < all_items.size(); ++index) {
const std::string& item_id = all_items.at(index);
analyzer.set_templ_name(item_id);
// analyzer.set_templ_name(item_id);
// TODO: too slow? find a way to set mask directly
cv::Mat templ = TemplResource::get_instance().get_templ(item_id).clone();
templ(cv::Rect { templ.cols - 80, templ.rows - 50, 80, 50 }) = cv::Scalar { 0, 0, 0 };
analyzer.set_templ(templ);
if (!analyzer.analyze()) {
continue;
}
@@ -199,94 +215,42 @@ size_t asst::DepotImageAnalyzer::match_item(const Rect& roi, /* out */ ItemInfo&
return matched_index;
}
int asst::DepotImageAnalyzer::match_quantity(const Rect& roi)
int asst::DepotImageAnalyzer::match_quantity(const ItemInfo& item)
{
auto task_ptr = Task.get<MatchTaskInfo>("DepotQuantity");
auto item_templ = TemplResource::get_instance().get_templ(item.item_id);
auto item_image = m_image_resized(make_rect<cv::Rect>(item.rect));
cv::Mat quotient;
cv::divide(item_image + cv::Scalar { 1, 1, 1 }, // I've forgot why I should plus 1 here
item_templ + cv::Scalar { 1, 1, 1 }, // plus 1 to avoid divide by zero
quotient, 255);
Rect quantity_roi = roi.move(task_ptr->roi);
cv::Mat quantity_img = m_image_resized(make_rect<cv::Rect>(quantity_roi));
cv::Mat hsv;
cv::cvtColor(quantity_img, hsv, cv::COLOR_BGR2HSV);
cv::Mat mask_r;
cv::Mat mask_g;
cv::Mat mask_b;
static constexpr int lb = 60;
static constexpr int ub = 140;
cv::inRange(quotient, cv::Scalar { lb, 0, 0 }, cv::Scalar { ub, 255, 255 }, mask_r);
cv::inRange(quotient, cv::Scalar { 0, lb, 0 }, cv::Scalar { 255, ub, 255 }, mask_g);
cv::inRange(quotient, cv::Scalar { 0, 0, lb }, cv::Scalar { 255, 255, ub }, mask_b);
cv::Mat mask;
cv::bitwise_or(mask_r, mask_g, mask);
cv::bitwise_or(mask, mask_b, mask);
const int h_lower = task_ptr->mask_range.first;
const int h_upper = task_ptr->mask_range.second;
const int s_lower = task_ptr->specific_rect.x;
const int s_upper = task_ptr->specific_rect.y;
const int v_lower = task_ptr->specific_rect.width;
const int v_upper = task_ptr->specific_rect.height;
cv::morphologyEx(mask, mask, cv::MORPH_OPEN, cv::getStructuringElement(cv::MORPH_RECT, { 4, 4 }));
auto mask_rect = cv::boundingRect(mask);
if (mask_rect.height < 18) mask_rect.height = 18;
// minus 1 to trim white pixels
Rect ocr_roi { item.rect.x + mask_rect.x, item.rect.y + mask_rect.y, mask_rect.width - 1, mask_rect.height - 1 };
cv::Mat bin;
cv::inRange(hsv, cv::Scalar(h_lower, s_lower, v_lower), cv::Scalar(h_upper, s_upper, v_upper), bin);
// split
const int max_spacing = static_cast<int>(task_ptr->templ_threshold);
const int bg_v_upper = task_ptr->special_params.front();
std::vector<cv::Range> contours;
int i_right = bin.cols - 1, i_left = 0;
bool in = false;
int spacing = 0;
for (int i = bin.cols - 1; i >= 0; --i) {
bool has_white = false;
for (int j = 0; j < bin.rows; ++j) {
if (bin.at<uchar>(j, i)) {
has_white = true;
break;
}
}
if (in && !has_white) { // leave
i_left = i;
in = false;
spacing = 0;
contours.emplace_back(i_left, i_right + 1); // range 是前闭后开的
}
else if (!in && has_white) { // enter
i_right = i;
in = true;
}
else if (!in) {
++spacing;
uchar bg_top_v = hsv.at<cv::Vec3b>(0, i)[2];
uchar bg_btm_v = hsv.at<cv::Vec3b>(bin.rows - 1, i)[2];
if (i_left != 0 && (spacing > max_spacing || bg_top_v > bg_v_upper || bg_btm_v > bg_v_upper)) {
// filter out noise
break;
}
}
}
cv::Rect y_bounding_rect;
for (int i = 0; i < contours.size(); ++i) {
if (y_bounding_rect.empty()) {
auto temp = cv::boundingRect(bin(cv::Range::all(), contours.at(i)));
if (temp.height > 10) {
y_bounding_rect = temp;
}
else {
continue;
}
}
auto left_elem_rect = cv::boundingRect(bin(cv::Range::all(), contours.back()));
if (std::abs(left_elem_rect.height - y_bounding_rect.height) > 2 ||
std::abs(left_elem_rect.y - y_bounding_rect.y) > 1 || left_elem_rect.width > 12) {
contours.pop_back();
}
else {
break;
}
}
if (contours.empty()) {
return 0;
}
int far_left = contours.back().start;
int far_right = contours.front().end;
cv::Mat ocr_img = m_image_resized.clone();
cv::subtract(m_image_resized(make_rect<cv::Rect>(item.rect)), item_templ * 0.41,
ocr_img(make_rect<cv::Rect>(item.rect)));
OcrWithPreprocessImageAnalyzer analyzer(m_image_resized);
analyzer.set_task_info("NumberOcrReplace");
Rect ocr_roi(quantity_roi.x + far_left, quantity_roi.y + y_bounding_rect.y, far_right - far_left,
y_bounding_rect.height);
analyzer.set_roi(ocr_roi);
analyzer.set_expansion(1);
analyzer.set_expansion(0);
analyzer.set_threshold(task_ptr->mask_range.first, task_ptr->mask_range.second);
if (!analyzer.analyze()) {
@@ -302,12 +266,13 @@ int asst::DepotImageAnalyzer::match_quantity(const Rect& roi)
#endif
std::string digit_str = result.text;
utils::string_trim(digit_str, std::function<bool(char)> { [](char c) -> bool { return c != '.'; } });
int multiple = 1;
if (size_t w_pos = digit_str.find(""); w_pos != std::string::npos) {
multiple = 10000;
digit_str.erase(w_pos, digit_str.size());
}
else if (size_t k_pos = digit_str.find("K"); k_pos != std::string::npos) {
else if (size_t k_pos = digit_str.find('K'); k_pos != std::string::npos) {
multiple = 1000;
digit_str.erase(k_pos, digit_str.size());
}
@@ -315,7 +280,7 @@ int asst::DepotImageAnalyzer::match_quantity(const Rect& roi)
multiple = 100000000;
digit_str.erase(e_pos, digit_str.size());
}
else if (size_t m_pos = digit_str.find("M"); m_pos != std::string::npos) {
else if (size_t m_pos = digit_str.find('M'); m_pos != std::string::npos) {
multiple = 1000000;
digit_str.erase(m_pos, digit_str.size());
}

View File

@@ -33,9 +33,12 @@ namespace asst
bool check_roi_empty(const Rect& roi);
size_t match_item(const Rect& roi, /* out */ ItemInfo& item_info, size_t begin_index = 0ULL,
bool with_enlarge = true);
int match_quantity(const Rect& roi);
int match_quantity(const ItemInfo& item);
Rect resize_rect_to_raw_size(const Rect& rect);
template <typename F>
static cv::Mat image_from_function(const cv::Size& size, const F& func);
size_t m_match_begin_pos = 0ULL;
Rect m_resized_rect;
cv::Mat m_image_resized;