raw data API

This commit is contained in:
Vaxry 2024-04-05 16:49:17 +01:00
parent 981b661782
commit df2eed871e
10 changed files with 213 additions and 29 deletions

View file

@ -15,7 +15,7 @@ enum eOperation {
OPERATION_EXTRACT = 1, OPERATION_EXTRACT = 1,
}; };
eResizeAlgo explicitResizeAlgo = RESIZE_INVALID; eHyprcursorResizeAlgo explicitResizeAlgo = HC_RESIZE_INVALID;
struct XCursorConfigEntry { struct XCursorConfigEntry {
int size = 0, hotspotX = 0, hotspotY = 0, delay = 0; int size = 0, hotspotX = 0, hotspotY = 0, delay = 0;
@ -329,7 +329,7 @@ static std::optional<std::string> extractXTheme(const std::string& xpath_, const
} }
// write a meta.hl // write a meta.hl
std::string metaString = std::format("resize_algorithm = {}\n", explicitResizeAlgo == RESIZE_INVALID ? "none" : algoToString(explicitResizeAlgo)); std::string metaString = std::format("resize_algorithm = {}\n", explicitResizeAlgo == HC_RESIZE_INVALID ? "none" : algoToString(explicitResizeAlgo));
// find hotspot from first entry // find hotspot from first entry
metaString += metaString +=

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@ -102,4 +102,21 @@ CAPI void hyprcursor_style_done(struct hyprcursor_manager_t* manager, struct hyp
*/ */
CAPI void hyprcursor_register_logging_function(struct hyprcursor_manager_t* manager, PHYPRCURSORLOGFUNC fn); CAPI void hyprcursor_register_logging_function(struct hyprcursor_manager_t* manager, PHYPRCURSORLOGFUNC fn);
/*!
\since 0.1.6
Returns the raw image data of a cursor shape, not rendered at all, alongside the metadata.
The object needs to be freed instantly after using, see hyprcursor_raw_shape_data_free()
*/
CAPI hyprcursor_cursor_raw_shape_data* hyprcursor_get_raw_shape_data(struct hyprcursor_manager_t* manager, char* shape);
/*!
\since 0.1.6
See hyprcursor_get_raw_shape_data.
Frees the returned object.
*/
CAPI void hyprcursor_raw_shape_data_free(hyprcursor_cursor_raw_shape_data* data);
#endif #endif

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@ -2,6 +2,7 @@
#include <vector> #include <vector>
#include <stdlib.h> #include <stdlib.h>
#include <string>
#include "shared.h" #include "shared.h"
@ -28,6 +29,23 @@ namespace Hyprcursor {
std::vector<SCursorImageData> images; std::vector<SCursorImageData> images;
}; };
/*!
C++ structs for hyprcursor_cursor_raw_shape_image and hyprcursor_cursor_raw_shape_data
*/
struct SCursorRawShapeImage {
std::vector<unsigned char> data;
int size = 0;
int delay = 200;
};
struct SCursorRawShapeData {
std::vector<SCursorRawShapeImage> images;
float hotspotX = 0;
float hotspotY = 0;
std::string overridenBy = "";
eHyprcursorResizeAlgo resizeAlgo = HC_RESIZE_NONE;
};
/*! /*!
Basic Hyprcursor manager. Basic Hyprcursor manager.
@ -93,11 +111,47 @@ namespace Hyprcursor {
return data; return data;
} }
/*!
\since 0.1.6
Returns the raw image data of a cursor shape, not rendered at all, alongside the metadata.
*/
SCursorRawShapeData getRawShapeData(const char* shape_) {
auto CDATA = getRawShapeDataC(shape_);
if (CDATA->overridenBy) {
SCursorRawShapeData d{.overridenBy = CDATA->overridenBy};
free(CDATA->overridenBy);
delete CDATA;
return d;
}
SCursorRawShapeData data{.hotspotX = CDATA->hotspotX, .hotspotY = CDATA->hotspotY, .overridenBy = "", .resizeAlgo = CDATA->resizeAlgo};
for (size_t i = 0; i < CDATA->len; ++i) {
SCursorRawShapeImageC* cimage = &CDATA->images[i];
SCursorRawShapeImage& img = data.images.emplace_back();
img.size = cimage->size;
img.delay = cimage->delay;
img.data = std::vector<unsigned char>{(unsigned char*)cimage->data, (unsigned char*)cimage->data + (std::size_t)cimage->len};
}
delete[] CDATA->images;
delete CDATA;
return data;
}
/*! /*!
Prefer getShape, this is for C compat. Prefer getShape, this is for C compat.
*/ */
SCursorImageData** getShapesC(int& outSize, const char* shape_, const SCursorStyleInfo& info); SCursorImageData** getShapesC(int& outSize, const char* shape_, const SCursorStyleInfo& info);
/*!
Prefer getShapeData, this is for C compat.
*/
SCursorRawShapeDataC* getRawShapeDataC(const char* shape_);
/*! /*!
Marks a certain style as done, allowing it to be potentially freed Marks a certain style as done, allowing it to be potentially freed
*/ */

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@ -25,6 +25,38 @@ enum eHyprcursorLogLevel {
HC_LOG_CRITICAL, HC_LOG_CRITICAL,
}; };
enum eHyprcursorDataType {
HC_DATA_PNG = 0,
HC_DATA_SVG,
};
enum eHyprcursorResizeAlgo {
HC_RESIZE_INVALID = 0,
HC_RESIZE_NONE,
HC_RESIZE_BILINEAR,
HC_RESIZE_NEAREST,
};
struct SCursorRawShapeImageC {
void* data;
unsigned long int len;
int size;
int delay;
};
typedef struct SCursorRawShapeImageC hyprcursor_cursor_raw_shape_image;
struct SCursorRawShapeDataC {
struct SCursorRawShapeImageC* images;
unsigned long int len;
float hotspotX;
float hotspotY;
char* overridenBy;
enum eHyprcursorResizeAlgo resizeAlgo;
};
typedef struct SCursorRawShapeDataC hyprcursor_cursor_raw_shape_data;
/* /*
msg is owned by the caller and will be freed afterwards. msg is owned by the caller and will be freed afterwards.
*/ */

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@ -294,7 +294,7 @@ SCursorImageData** CHyprcursorManager::getShapesC(int& outSize, const char* shap
break; break;
// if we get here, means loadThemeStyle wasn't called most likely. If resize algo is specified, this is an error. // if we get here, means loadThemeStyle wasn't called most likely. If resize algo is specified, this is an error.
if (shape->resizeAlgo != RESIZE_NONE) { if (shape->resizeAlgo != HC_RESIZE_NONE) {
Debug::log(HC_LOG_ERR, logFn, "getSurfaceFor didn't match a size?"); Debug::log(HC_LOG_ERR, logFn, "getSurfaceFor didn't match a size?");
return nullptr; return nullptr;
} }
@ -348,11 +348,58 @@ SCursorImageData** CHyprcursorManager::getShapesC(int& outSize, const char* shap
return data; return data;
} }
SCursorRawShapeDataC* CHyprcursorManager::getRawShapeDataC(const char* shape_) {
if (!shape_) {
Debug::log(HC_LOG_ERR, logFn, "getShapeDataC: shape of nullptr is invalid");
return nullptr;
}
const std::string SHAPE = shape_;
SCursorRawShapeDataC* data = new SCursorRawShapeDataC;
std::vector<SLoadedCursorImage*> resultingImages;
for (auto& shape : impl->theme.shapes) {
// if it's overridden just return the override
if (const auto IT = std::find(shape->overrides.begin(), shape->overrides.end(), SHAPE); IT != shape->overrides.end()) {
data->overridenBy = strdup(IT->c_str());
return data;
}
if (shape->directory != SHAPE)
continue;
if (!impl->loadedShapes.contains(shape.get()))
continue; // ??
// found it
for (auto& i : impl->loadedShapes[shape.get()].images) {
resultingImages.push_back(i.get());
}
data->hotspotX = shape->hotspotX;
data->hotspotY = shape->hotspotY;
break;
}
data->len = resultingImages.size();
data->images = new SCursorRawShapeImageC[data->len];
for (size_t i = 0; i < data->len; ++i) {
data->images[i].data = resultingImages[i]->data;
data->images[i].len = resultingImages[i]->dataLen;
data->images[i].size = resultingImages[i]->side;
data->images[i].delay = resultingImages[i]->delay;
}
return data;
}
bool CHyprcursorManager::loadThemeStyle(const SCursorStyleInfo& info) { bool CHyprcursorManager::loadThemeStyle(const SCursorStyleInfo& info) {
Debug::log(HC_LOG_INFO, logFn, "loadThemeStyle: loading for size {}", info.size); Debug::log(HC_LOG_INFO, logFn, "loadThemeStyle: loading for size {}", info.size);
for (auto& shape : impl->theme.shapes) { for (auto& shape : impl->theme.shapes) {
if (shape->resizeAlgo == RESIZE_NONE && shape->shapeType != SHAPE_SVG) { if (shape->resizeAlgo == HC_RESIZE_NONE && shape->shapeType != SHAPE_SVG) {
// don't resample NONE style cursors // don't resample NONE style cursors
Debug::log(HC_LOG_TRACE, logFn, "loadThemeStyle: ignoring {}", shape->directory); Debug::log(HC_LOG_TRACE, logFn, "loadThemeStyle: ignoring {}", shape->directory);
continue; continue;
@ -415,7 +462,7 @@ bool CHyprcursorManager::loadThemeStyle(const SCursorStyleInfo& info) {
const auto PCAIRO = cairo_create(newImage->cairoSurface); const auto PCAIRO = cairo_create(newImage->cairoSurface);
cairo_set_antialias(PCAIRO, shape->resizeAlgo == RESIZE_BILINEAR ? CAIRO_ANTIALIAS_GOOD : CAIRO_ANTIALIAS_NONE); cairo_set_antialias(PCAIRO, shape->resizeAlgo == HC_RESIZE_BILINEAR ? CAIRO_ANTIALIAS_GOOD : CAIRO_ANTIALIAS_NONE);
cairo_save(PCAIRO); cairo_save(PCAIRO);
cairo_set_operator(PCAIRO, CAIRO_OPERATOR_CLEAR); cairo_set_operator(PCAIRO, CAIRO_OPERATOR_CLEAR);
@ -426,7 +473,7 @@ bool CHyprcursorManager::loadThemeStyle(const SCursorStyleInfo& info) {
cairo_pattern_set_extend(PTN, CAIRO_EXTEND_NONE); cairo_pattern_set_extend(PTN, CAIRO_EXTEND_NONE);
const float scale = info.size / (float)f->side; const float scale = info.size / (float)f->side;
cairo_scale(PCAIRO, scale, scale); cairo_scale(PCAIRO, scale, scale);
cairo_pattern_set_filter(PTN, shape->resizeAlgo == RESIZE_BILINEAR ? CAIRO_FILTER_GOOD : CAIRO_FILTER_NEAREST); cairo_pattern_set_filter(PTN, shape->resizeAlgo == HC_RESIZE_BILINEAR ? CAIRO_FILTER_GOOD : CAIRO_FILTER_NEAREST);
cairo_set_source(PCAIRO, PTN); cairo_set_source(PCAIRO, PTN);
cairo_rectangle(PCAIRO, 0, 0, info.size, info.size); cairo_rectangle(PCAIRO, 0, 0, info.size, info.size);
@ -487,7 +534,7 @@ bool CHyprcursorManager::loadThemeStyle(const SCursorStyleInfo& info) {
void CHyprcursorManager::cursorSurfaceStyleDone(const SCursorStyleInfo& info) { void CHyprcursorManager::cursorSurfaceStyleDone(const SCursorStyleInfo& info) {
for (auto& shape : impl->theme.shapes) { for (auto& shape : impl->theme.shapes) {
if (shape->resizeAlgo == RESIZE_NONE && shape->shapeType != SHAPE_SVG) if (shape->resizeAlgo == HC_RESIZE_NONE && shape->shapeType != SHAPE_SVG)
continue; continue;
std::erase_if(impl->loadedShapes[shape.get()].images, [info, &shape](const auto& e) { std::erase_if(impl->loadedShapes[shape.get()].images, [info, &shape](const auto& e) {
@ -520,6 +567,9 @@ PNG reading
static cairo_status_t readPNG(void* data, unsigned char* output, unsigned int len) { static cairo_status_t readPNG(void* data, unsigned char* output, unsigned int len) {
const auto DATA = (SLoadedCursorImage*)data; const auto DATA = (SLoadedCursorImage*)data;
if (DATA->readNeedle >= DATA->dataLen)
return CAIRO_STATUS_READ_ERROR;
if (!DATA->data) if (!DATA->data)
return CAIRO_STATUS_READ_ERROR; return CAIRO_STATUS_READ_ERROR;
@ -528,11 +578,6 @@ static cairo_status_t readPNG(void* data, unsigned char* output, unsigned int le
std::memcpy(output, (uint8_t*)DATA->data + DATA->readNeedle, toRead); std::memcpy(output, (uint8_t*)DATA->data + DATA->readNeedle, toRead);
DATA->readNeedle += toRead; DATA->readNeedle += toRead;
if (DATA->readNeedle >= DATA->dataLen) {
delete[] (char*)DATA->data;
DATA->data = nullptr;
}
return CAIRO_STATUS_SUCCESS; return CAIRO_STATUS_SUCCESS;
} }

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@ -56,3 +56,19 @@ void hyprcursor_register_logging_function(struct hyprcursor_manager_t* manager,
const auto MGR = (CHyprcursorManager*)manager; const auto MGR = (CHyprcursorManager*)manager;
MGR->registerLoggingFunction(fn); MGR->registerLoggingFunction(fn);
} }
CAPI hyprcursor_cursor_raw_shape_data* hyprcursor_get_raw_shape_data(struct hyprcursor_manager_t* manager, char* shape) {
const auto MGR = (CHyprcursorManager*)manager;
return MGR->getRawShapeDataC(shape);
}
CAPI void hyprcursor_raw_shape_data_free(hyprcursor_cursor_raw_shape_data* data) {
if (data->overridenBy) {
free(data->overridenBy);
delete data;
return;
}
delete[] data->images;
delete data;
}

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@ -18,7 +18,7 @@ struct SLoadedCursorImage {
// read stuff // read stuff
size_t readNeedle = 0; size_t readNeedle = 0;
void* data = nullptr; void* data = nullptr; // raw png / svg data, not image data
size_t dataLen = 0; size_t dataLen = 0;
bool isSVG = false; // if true, data is just a string of chars bool isSVG = false; // if true, data is just a string of chars

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@ -2,13 +2,7 @@
#include <string> #include <string>
#include <vector> #include <vector>
#include <memory> #include <memory>
#include <hyprcursor/shared.h>
enum eResizeAlgo {
RESIZE_INVALID = 0,
RESIZE_NONE,
RESIZE_BILINEAR,
RESIZE_NEAREST,
};
enum eShapeType { enum eShapeType {
SHAPE_INVALID = 0, SHAPE_INVALID = 0,
@ -16,19 +10,19 @@ enum eShapeType {
SHAPE_SVG, SHAPE_SVG,
}; };
inline eResizeAlgo stringToAlgo(const std::string& s) { inline eHyprcursorResizeAlgo stringToAlgo(const std::string& s) {
if (s == "none") if (s == "none")
return RESIZE_NONE; return HC_RESIZE_NONE;
if (s == "nearest") if (s == "nearest")
return RESIZE_NEAREST; return HC_RESIZE_NEAREST;
return RESIZE_BILINEAR; return HC_RESIZE_BILINEAR;
} }
inline std::string algoToString(const eResizeAlgo a) { inline std::string algoToString(const eHyprcursorResizeAlgo a) {
switch (a) { switch (a) {
case RESIZE_BILINEAR: return "bilinear"; case HC_RESIZE_BILINEAR: return "bilinear";
case RESIZE_NEAREST: return "nearest"; case HC_RESIZE_NEAREST: return "nearest";
case RESIZE_NONE: return "none"; case HC_RESIZE_NONE: return "none";
default: return "none"; default: return "none";
} }
@ -44,7 +38,7 @@ struct SCursorImage {
struct SCursorShape { struct SCursorShape {
std::string directory; std::string directory;
float hotspotX = 0, hotspotY = 0; float hotspotX = 0, hotspotY = 0;
eResizeAlgo resizeAlgo = RESIZE_NEAREST; eHyprcursorResizeAlgo resizeAlgo = HC_RESIZE_NEAREST;
std::vector<SCursorImage> images; std::vector<SCursorImage> images;
std::vector<std::string> overrides; std::vector<std::string> overrides;
eShapeType shapeType = SHAPE_INVALID; eShapeType shapeType = SHAPE_INVALID;

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@ -24,6 +24,21 @@ int main(int argc, char** argv) {
return 1; return 1;
} }
hyprcursor_cursor_raw_shape_data* shapeData = hyprcursor_get_raw_shape_data(mgr, "left_ptr");
if (!shapeData || shapeData->len <= 0) {
printf("failed querying left_ptr\n");
return 1;
}
printf("left_ptr images: %d\n", shapeData->len);
for (size_t i = 0; i < shapeData->len; ++i) {
printf("left_ptr image size: %d\n", shapeData->images[i].len);
}
hyprcursor_raw_shape_data_free(shapeData);
shapeData = NULL;
struct hyprcursor_cursor_style_info info = {.size = 48}; struct hyprcursor_cursor_style_info info = {.size = 48};
if (!hyprcursor_load_theme_style(mgr, info)) { if (!hyprcursor_load_theme_style(mgr, info)) {
printf("load failed\n"); printf("load failed\n");

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@ -18,6 +18,17 @@ int main(int argc, char** argv) {
return 1; return 1;
} }
// test raw data
const auto RAWDATA = mgr.getRawShapeData("left_ptr");
if (RAWDATA.images.empty()) {
std::cout << "failed querying left_ptr\n";
return 1;
}
std::cout << "left_ptr images: " << RAWDATA.images.size() << "\n";
for (auto& i : RAWDATA.images)
std::cout << "left_ptr data size: " << i.data.size() << "\n";
Hyprcursor::SCursorStyleInfo style{.size = 48}; Hyprcursor::SCursorStyleInfo style{.size = 48};
// preload size 48 for testing // preload size 48 for testing
if (!mgr.loadThemeStyle(style)) { if (!mgr.loadThemeStyle(style)) {