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test/source/blender/blenkernel/intern/context.cc
Nick Alberelli 439fe8a1a0 PyAPI: support logging for Context.temp_override 
Adds comprehensive logging system for temp_override context manager to
help developers debug "context is incorrect" operator poll failures.
The logging tracks all context member access during temp_override
sessions and provides detailed summaries to identify context
availability issues.

Features:
- Command-line logging: `./blender --log-level trace --log "context" `
- Python programmatic control: `temp_override_handle.logging_set(True)`
- C-level API: CTX_temp_override_logging_set/get() functions
- Tracks individual member access
- Uses CLOG logging infrastructure

The logging helps identify which context members are accessed during
temp_override sessions and whether they return valid data, making it
easier to debug operator poll functions that fail with context errors.

Ref !144810
2025-09-19 06:48:07 +00:00

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/* SPDX-FileCopyrightText: 2023 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bke
*/
#include <cstddef>
#include <cstdlib>
#include <cstring>
#include <fmt/format.h>
#include "MEM_guardedalloc.h"
#include "DNA_collection_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_screen_types.h"
#include "DNA_space_types.h"
#include "DNA_view3d_types.h"
#include "DNA_windowmanager_types.h"
#include "DNA_workspace_types.h"
#include "DEG_depsgraph.hh"
#include "BLI_listbase.h"
#include "BLI_threads.h"
#include "BLI_utildefines.h"
#include "BLT_translation.hh"
#include "BKE_context.hh"
#include "BKE_layer.hh"
#include "BKE_main.hh"
#include "BKE_scene.hh"
#include "BKE_screen.hh"
#include "BKE_sound.h"
#include "BKE_wm_runtime.hh"
#include "BKE_workspace.hh"
#include "RE_engine.h"
#include "RNA_access.hh"
#include "RNA_prototypes.hh"
#include "CLG_log.h"
/* Logging. */
CLG_LOGREF_DECLARE_GLOBAL(BKE_LOG_CONTEXT, "context");
#ifdef WITH_PYTHON
# include "BPY_extern.hh"
#endif
using blender::Vector;
static CLG_LogRef LOG = {"context"};
/* struct */
struct bContext {
int thread;
/* windowmanager context */
struct {
wmWindowManager *manager;
wmWindow *window;
WorkSpace *workspace;
bScreen *screen;
ScrArea *area;
ARegion *region;
ARegion *region_popup;
wmGizmoGroup *gizmo_group;
const bContextStore *store;
/* Operator poll. */
/**
* Store the reason the poll function fails (static string, not allocated).
* For more advanced formatting use `operator_poll_msg_dyn_params`.
*/
const char *operator_poll_msg;
/**
* Store values to dynamically to create the string (called when a tool-tip is shown).
*/
bContextPollMsgDyn_Params operator_poll_msg_dyn_params;
} wm;
/* data context */
struct {
Main *main;
Scene *scene;
int recursion;
/** True if python is initialized. */
bool py_init;
void *py_context;
/**
* If we need to remove members, do so in a copy
* (keep this to check if the copy needs freeing).
*/
void *py_context_orig;
/** True if logging is enabled for context members (can be set programmatically). */
bool log_access;
} data;
};
/* context */
bContext *CTX_create()
{
bContext *C = MEM_callocN<bContext>(__func__);
return C;
}
bContext *CTX_copy(const bContext *C)
{
bContext *newC = MEM_callocN<bContext>(__func__);
*newC = *C;
memset(&newC->wm.operator_poll_msg_dyn_params, 0, sizeof(newC->wm.operator_poll_msg_dyn_params));
return newC;
}
void CTX_free(bContext *C)
{
/* This may contain a dynamically allocated message, free. */
CTX_wm_operator_poll_msg_clear(C);
MEM_freeN(C);
}
/* store */
/**
* Append a new context store to \a contexts, copying entries from the previous one if any.
*/
static bContextStore *ctx_store_extend(Vector<std::unique_ptr<bContextStore>> &contexts)
{
/* ensure we have a context to put the entry in, if it was already used
* we have to copy the context to ensure */
if (contexts.is_empty()) {
contexts.append(std::make_unique<bContextStore>());
}
else if (contexts.last()->used) {
auto new_ctx = std::make_unique<bContextStore>(bContextStore{contexts.last()->entries, false});
contexts.append(std::move(new_ctx));
}
return contexts.last().get();
}
bContextStore *CTX_store_add(Vector<std::unique_ptr<bContextStore>> &contexts,
const blender::StringRef name,
const PointerRNA *ptr)
{
bContextStore *ctx = ctx_store_extend(contexts);
ctx->entries.append(bContextStoreEntry{name, *ptr});
return ctx;
}
bContextStore *CTX_store_add(Vector<std::unique_ptr<bContextStore>> &contexts,
const blender::StringRef name,
const blender::StringRef str)
{
bContextStore *ctx = ctx_store_extend(contexts);
ctx->entries.append(bContextStoreEntry{name, std::string{str}});
return ctx;
}
bContextStore *CTX_store_add(Vector<std::unique_ptr<bContextStore>> &contexts,
const blender::StringRef name,
const int64_t value)
{
bContextStore *ctx = ctx_store_extend(contexts);
ctx->entries.append(bContextStoreEntry{name, value});
return ctx;
}
bContextStore *CTX_store_add_all(Vector<std::unique_ptr<bContextStore>> &contexts,
const bContextStore *context)
{
bContextStore *ctx = ctx_store_extend(contexts);
for (const bContextStoreEntry &src_entry : context->entries) {
ctx->entries.append(src_entry);
}
return ctx;
}
const bContextStore *CTX_store_get(const bContext *C)
{
return C->wm.store;
}
void CTX_store_set(bContext *C, const bContextStore *store)
{
C->wm.store = store;
}
const PointerRNA *CTX_store_ptr_lookup(const bContextStore *store,
const blender::StringRef name,
const StructRNA *type)
{
for (auto entry = store->entries.rbegin(); entry != store->entries.rend(); ++entry) {
if (entry->name == name && std::holds_alternative<PointerRNA>(entry->value)) {
const PointerRNA &ptr = std::get<PointerRNA>(entry->value);
if (!type || RNA_struct_is_a(ptr.type, type)) {
return &ptr;
}
}
}
return nullptr;
}
template<typename T>
const T *ctx_store_lookup_impl(const bContextStore *store, const blender::StringRef name)
{
for (auto entry = store->entries.rbegin(); entry != store->entries.rend(); ++entry) {
if (entry->name == name && std::holds_alternative<T>(entry->value)) {
return &std::get<T>(entry->value);
}
}
return nullptr;
}
std::optional<blender::StringRefNull> CTX_store_string_lookup(const bContextStore *store,
const blender::StringRef name)
{
if (const std::string *value = ctx_store_lookup_impl<std::string>(store, name)) {
return *value;
}
return {};
}
std::optional<int64_t> CTX_store_int_lookup(const bContextStore *store,
const blender::StringRef name)
{
if (const int64_t *value = ctx_store_lookup_impl<int64_t>(store, name)) {
return *value;
}
return {};
}
/* is python initialized? */
bool CTX_py_init_get(const bContext *C)
{
return C->data.py_init;
}
void CTX_py_init_set(bContext *C, bool value)
{
C->data.py_init = value;
}
void *CTX_py_dict_get(const bContext *C)
{
return C->data.py_context;
}
void *CTX_py_dict_get_orig(const bContext *C)
{
return C->data.py_context_orig;
}
void CTX_py_state_push(bContext *C, bContext_PyState *pystate, void *value)
{
pystate->py_context = C->data.py_context;
pystate->py_context_orig = C->data.py_context_orig;
C->data.py_context = value;
C->data.py_context_orig = value;
}
void CTX_py_state_pop(bContext *C, bContext_PyState *pystate)
{
C->data.py_context = pystate->py_context;
C->data.py_context_orig = pystate->py_context_orig;
}
/* data context utility functions */
struct bContextDataResult {
PointerRNA ptr;
Vector<PointerRNA> list;
PropertyRNA *prop;
int index;
blender::StringRefNull str;
std::optional<int64_t> int_value;
const char **dir;
ContextDataType type;
};
/** Create a brief string representation of a context data result. */
static std::string ctx_result_brief_repr(const bContextDataResult &result)
{
switch (result.type) {
case ContextDataType::Pointer:
if (result.ptr.data) {
const char *rna_type_name = result.ptr.type ? RNA_struct_identifier(result.ptr.type) :
"Unknown";
/* Try to get the name property if it exists. */
std::string member_name;
if (result.ptr.type) {
PropertyRNA *name_prop = RNA_struct_name_property(result.ptr.type);
if (name_prop) {
char name_buf[256];
PointerRNA ptr_copy = result.ptr; /* Make a non-const copy. */
char *name = RNA_property_string_get_alloc(
&ptr_copy, name_prop, name_buf, sizeof(name_buf), nullptr);
if (name && name[0] != '\0') {
member_name = name;
if (name != name_buf) {
MEM_freeN(name);
}
}
}
}
/* Format like PyRNA: '<Type("name") at 0xAddress>' or '<Type at 0xAddress>'. */
if (!member_name.empty()) {
return fmt::format("<{}(\"{}\") at 0x{:x}>",
rna_type_name,
member_name,
reinterpret_cast<uintptr_t>(result.ptr.data));
}
else {
return fmt::format(
"<{} at 0x{:x}>", rna_type_name, reinterpret_cast<uintptr_t>(result.ptr.data));
}
}
else {
return "None";
}
case ContextDataType::Collection:
return fmt::format("[{} item(s)]", result.list.size());
case ContextDataType::String:
if (!result.str.is_empty()) {
return "\"" + result.str + "\"";
}
else {
return "\"\"";
}
case ContextDataType::Property:
if (result.prop && result.ptr.data) {
const char *prop_name = RNA_property_identifier(result.prop);
const char *rna_type_name = result.ptr.type ? RNA_struct_identifier(result.ptr.type) :
"Unknown";
if (result.index >= 0) {
return fmt::format("<Property({}.{}[{}])>", rna_type_name, prop_name, result.index);
}
else {
return fmt::format("<Property({}.{})>", rna_type_name, prop_name);
}
}
else {
return "<Property(None)>";
}
case ContextDataType::Int64:
if (result.int_value.has_value()) {
return std::to_string(result.int_value.value());
}
else {
return "None";
}
}
/* Unhandled context type. Update if new types are added. */
BLI_assert_unreachable();
return "<UNKNOWN>";
}
/** Simple logging for context data results. */
static void ctx_member_log_access(const bContext *C,
const char *member,
const bContextDataResult &result)
{
const bool use_logging = CLOG_CHECK(BKE_LOG_CONTEXT, CLG_LEVEL_TRACE) ||
(C && CTX_member_logging_get(C));
if (!use_logging) {
return;
}
std::string value_repr = ctx_result_brief_repr(result);
const char *value_desc = value_repr.c_str();
#ifdef WITH_PYTHON
/* Get current Python location if available and Python is properly initialized. */
std::optional<std::string> python_location;
if (C && CTX_py_init_get(C)) {
python_location = BPY_python_current_file_and_line();
}
const char *location = python_location ? python_location->c_str() : "unknown:0";
#else
const char *location = "unknown:0";
#endif
/* Use TRACE level when available, otherwise force output when Python logging is enabled. */
const char *format = "%s: %s=%s";
if (CLOG_CHECK(BKE_LOG_CONTEXT, CLG_LEVEL_TRACE)) {
CLOG_TRACE(BKE_LOG_CONTEXT, format, location, member, value_desc);
}
else if (C && CTX_member_logging_get(C)) {
/* Force output at TRACE level even if not enabled via command line. */
CLOG_AT_LEVEL_NOCHECK(BKE_LOG_CONTEXT, CLG_LEVEL_TRACE, format, location, member, value_desc);
}
}
static void *ctx_wm_python_context_get(const bContext *C,
const char *member,
const StructRNA *member_type,
void *fall_through)
{
void *return_data = nullptr;
bool found_member = false;
#ifdef WITH_PYTHON
if (UNLIKELY(C && CTX_py_dict_get(C))) {
bContextDataResult result{};
if (BPY_context_member_get((bContext *)C, member, &result)) {
found_member = true;
if (result.ptr.data) {
if (RNA_struct_is_a(result.ptr.type, member_type)) {
return_data = result.ptr.data;
}
else {
CLOG_WARN(&LOG,
"PyContext '%s' is a '%s', expected a '%s'",
member,
RNA_struct_identifier(result.ptr.type),
RNA_struct_identifier(member_type));
}
}
/* Log context member access directly without storing a copy. */
ctx_member_log_access(C, member, result);
}
}
#else
UNUSED_VARS(C, member, member_type);
#endif
/* If no member was found, use the fallback value and create a simple result for logging. */
if (!found_member) {
bContextDataResult fallback_result{};
fallback_result.ptr.data = fall_through;
fallback_result.ptr.type = const_cast<StructRNA *>(
member_type); /* Use the expected RNA type */
fallback_result.type = ContextDataType::Pointer;
return_data = fall_through;
/* Log fallback context member access. */
ctx_member_log_access(C, member, fallback_result);
}
/* Don't allow UI context access from non-main threads. */
if (!BLI_thread_is_main()) {
return nullptr;
}
return return_data;
}
static eContextResult ctx_data_get(bContext *C, const char *member, bContextDataResult *result)
{
bScreen *screen;
ScrArea *area;
ARegion *region;
int done = 0, recursion = C->data.recursion;
int ret = 0;
*result = {};
/* NOTE: We'll log access when we have actual results. */
#ifdef WITH_PYTHON
if (CTX_py_dict_get(C)) {
if (BPY_context_member_get(C, member, result)) {
/* Log the Python context result if we're in a temp_override. */
ctx_member_log_access(C, member, *result);
return CTX_RESULT_OK;
}
}
#endif
/* Don't allow UI context access from non-main threads. */
if (!BLI_thread_is_main()) {
return CTX_RESULT_MEMBER_NOT_FOUND;
}
/* we check recursion to ensure that we do not get infinite
* loops requesting data from ourselves in a context callback */
/* Ok, this looks evil...
* if (ret) done = -(-ret | -done);
*
* Values in order of importance
* (0, -1, 1) - Where 1 is highest priority
*/
if (done != 1 && recursion < 1 && C->wm.store) {
C->data.recursion = 1;
if (const PointerRNA *ptr = CTX_store_ptr_lookup(C->wm.store, member, nullptr)) {
result->ptr = *ptr;
done = 1;
}
else if (std::optional<blender::StringRefNull> str = CTX_store_string_lookup(C->wm.store,
member))
{
result->str = *str;
result->type = ContextDataType::String;
done = 1;
}
else if (std::optional<int64_t> int_value = CTX_store_int_lookup(C->wm.store, member)) {
result->int_value = int_value;
result->type = ContextDataType::Int64;
done = 1;
}
}
if (done != 1 && recursion < 2 && (region = CTX_wm_region(C))) {
C->data.recursion = 2;
if (region->runtime->type && region->runtime->type->context) {
ret = region->runtime->type->context(C, member, result);
if (ret) {
done = -(-ret | -done);
}
}
}
if (done != 1 && recursion < 3 && (area = CTX_wm_area(C))) {
C->data.recursion = 3;
if (area->type && area->type->context) {
ret = area->type->context(C, member, result);
if (ret) {
done = -(-ret | -done);
}
}
}
if (done != 1 && recursion < 4 && (screen = CTX_wm_screen(C))) {
bContextDataCallback cb = reinterpret_cast<bContextDataCallback>(screen->context);
C->data.recursion = 4;
if (cb) {
ret = cb(C, member, result);
if (ret) {
done = -(-ret | -done);
}
}
}
C->data.recursion = recursion;
eContextResult final_result = eContextResult(done);
/* Log context result if we're in a temp_override and we got a successful or no-data result. */
if (ELEM(final_result, CTX_RESULT_OK, CTX_RESULT_NO_DATA)) {
ctx_member_log_access(C, member, *result);
}
return final_result;
}
static void *ctx_data_pointer_get(const bContext *C, const char *member)
{
bContextDataResult result;
if (C && ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Pointer);
return result.ptr.data;
}
return nullptr;
}
static bool ctx_data_pointer_verify(const bContext *C, const char *member, void **pointer)
{
/* if context is nullptr, pointer must be nullptr too and that is a valid return */
if (C == nullptr) {
*pointer = nullptr;
return true;
}
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Pointer);
*pointer = result.ptr.data;
return true;
}
*pointer = nullptr;
return false;
}
static bool ctx_data_collection_get(const bContext *C,
const char *member,
Vector<PointerRNA> *list)
{
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Collection);
*list = std::move(result.list);
return true;
}
list->clear();
return false;
}
static bool ctx_data_base_collection_get(const bContext *C,
const char *member,
Vector<PointerRNA> *list)
{
Vector<PointerRNA> ctx_object_list;
if ((ctx_data_collection_get(C, member, &ctx_object_list) == false) ||
ctx_object_list.is_empty())
{
list->clear();
return false;
}
bContextDataResult result{};
Scene *scene = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
BKE_view_layer_synced_ensure(scene, view_layer);
bool ok = false;
for (PointerRNA &ctx_object : ctx_object_list) {
Object *ob = static_cast<Object *>(ctx_object.data);
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (base != nullptr) {
CTX_data_list_add(&result, &scene->id, &RNA_ObjectBase, base);
ok = true;
}
}
CTX_data_type_set(&result, ContextDataType::Collection);
*list = std::move(result.list);
return ok;
}
PointerRNA CTX_data_pointer_get(const bContext *C, const char *member)
{
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Pointer);
return result.ptr;
}
return PointerRNA_NULL;
}
PointerRNA CTX_data_pointer_get_type(const bContext *C, const char *member, StructRNA *type)
{
PointerRNA ptr = CTX_data_pointer_get(C, member);
if (ptr.data) {
if (RNA_struct_is_a(ptr.type, type)) {
return ptr;
}
CLOG_WARN(&LOG,
"member '%s' is '%s', not '%s'",
member,
RNA_struct_identifier(ptr.type),
RNA_struct_identifier(type));
}
return PointerRNA_NULL;
}
PointerRNA CTX_data_pointer_get_type_silent(const bContext *C, const char *member, StructRNA *type)
{
PointerRNA ptr = CTX_data_pointer_get(C, member);
if (ptr.data && RNA_struct_is_a(ptr.type, type)) {
return ptr;
}
return PointerRNA_NULL;
}
Vector<PointerRNA> CTX_data_collection_get(const bContext *C, const char *member)
{
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Collection);
return result.list;
}
return {};
}
void CTX_data_collection_remap_property(blender::MutableSpan<PointerRNA> collection_pointers,
const char *propname)
{
for (PointerRNA &ptr : collection_pointers) {
ptr = RNA_pointer_get(&ptr, propname);
}
}
std::optional<blender::StringRefNull> CTX_data_string_get(const bContext *C, const char *member)
{
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::String);
return result.str;
}
return {};
}
std::optional<int64_t> CTX_data_int_get(const bContext *C, const char *member)
{
bContextDataResult result;
if (ctx_data_get((bContext *)C, member, &result) == CTX_RESULT_OK) {
BLI_assert(result.type == ContextDataType::Int64);
return result.int_value;
}
return {};
}
int /*eContextResult*/ CTX_data_get(const bContext *C,
const char *member,
PointerRNA *r_ptr,
Vector<PointerRNA> *r_lb,
PropertyRNA **r_prop,
int *r_index,
blender::StringRef *r_str,
std::optional<int64_t> *r_int_value,
ContextDataType *r_type)
{
bContextDataResult result;
eContextResult ret = ctx_data_get((bContext *)C, member, &result);
if (ret == CTX_RESULT_OK) {
*r_ptr = result.ptr;
*r_lb = result.list;
*r_prop = result.prop;
*r_index = result.index;
*r_str = result.str;
*r_int_value = result.int_value;
*r_type = result.type;
}
else {
*r_ptr = {};
r_lb->clear();
*r_str = "";
*r_int_value = {};
*r_type = ContextDataType::Pointer;
}
return ret;
}
static void data_dir_add(ListBase *lb, const char *member, const bool use_all)
{
LinkData *link;
if ((use_all == false) && STREQ(member, "scene")) { /* exception */
return;
}
if (BLI_findstring(lb, member, offsetof(LinkData, data))) {
return;
}
link = MEM_callocN<LinkData>(__func__);
link->data = (void *)member;
BLI_addtail(lb, link);
}
ListBase CTX_data_dir_get_ex(const bContext *C,
const bool use_store,
const bool use_rna,
const bool use_all)
{
bContextDataResult result{};
ListBase lb;
bScreen *screen;
ScrArea *area;
ARegion *region;
int a;
memset(&lb, 0, sizeof(lb));
if (use_rna) {
char name_buf[256], *name;
int namelen;
PropertyRNA *iterprop;
PointerRNA ctx_ptr = RNA_pointer_create_discrete(nullptr, &RNA_Context, (void *)C);
iterprop = RNA_struct_iterator_property(ctx_ptr.type);
RNA_PROP_BEGIN (&ctx_ptr, itemptr, iterprop) {
name = RNA_struct_name_get_alloc(&itemptr, name_buf, sizeof(name_buf), &namelen);
data_dir_add(&lb, name, use_all);
if (name != name_buf) {
MEM_freeN(name);
}
}
RNA_PROP_END;
}
if (use_store && C->wm.store) {
for (const bContextStoreEntry &entry : C->wm.store->entries) {
data_dir_add(&lb, entry.name.c_str(), use_all);
}
}
if ((region = CTX_wm_region(C)) && region->runtime->type && region->runtime->type->context) {
region->runtime->type->context(C, "", &result);
if (result.dir) {
for (a = 0; result.dir[a]; a++) {
data_dir_add(&lb, result.dir[a], use_all);
}
}
}
if ((area = CTX_wm_area(C)) && area->type && area->type->context) {
area->type->context(C, "", &result);
if (result.dir) {
for (a = 0; result.dir[a]; a++) {
data_dir_add(&lb, result.dir[a], use_all);
}
}
}
if ((screen = CTX_wm_screen(C)) && screen->context) {
bContextDataCallback cb = reinterpret_cast<bContextDataCallback>(screen->context);
cb(C, "", &result);
if (result.dir) {
for (a = 0; result.dir[a]; a++) {
data_dir_add(&lb, result.dir[a], use_all);
}
}
}
return lb;
}
ListBase CTX_data_dir_get(const bContext *C)
{
return CTX_data_dir_get_ex(C, true, false, false);
}
bool CTX_data_equals(const char *member, const char *str)
{
return STREQ(member, str);
}
bool CTX_data_dir(const char *member)
{
return member[0] == '\0';
}
void CTX_data_id_pointer_set(bContextDataResult *result, ID *id)
{
result->ptr = RNA_id_pointer_create(id);
}
void CTX_data_pointer_set(bContextDataResult *result, ID *id, StructRNA *type, void *data)
{
result->ptr = RNA_pointer_create_discrete(id, type, data);
}
void CTX_data_pointer_set_ptr(bContextDataResult *result, const PointerRNA *ptr)
{
result->ptr = *ptr;
}
void CTX_data_id_list_add(bContextDataResult *result, ID *id)
{
result->list.append(RNA_id_pointer_create(id));
}
void CTX_data_list_add(bContextDataResult *result, ID *id, StructRNA *type, void *data)
{
result->list.append(RNA_pointer_create_discrete(id, type, data));
}
void CTX_data_list_add_ptr(bContextDataResult *result, const PointerRNA *ptr)
{
result->list.append(*ptr);
}
int ctx_data_list_count(const bContext *C,
bool (*func)(const bContext *, blender::Vector<PointerRNA> *))
{
blender::Vector<PointerRNA> list;
if (func(C, &list)) {
return list.size();
}
return 0;
}
void CTX_data_prop_set(bContextDataResult *result, PropertyRNA *prop, int index)
{
result->prop = prop;
result->index = index;
}
void CTX_data_dir_set(bContextDataResult *result, const char **dir)
{
result->dir = dir;
}
void CTX_data_type_set(bContextDataResult *result, ContextDataType type)
{
result->type = type;
}
ContextDataType CTX_data_type_get(bContextDataResult *result)
{
return result->type;
}
/* window manager context */
wmWindowManager *CTX_wm_manager(const bContext *C)
{
return C->wm.manager;
}
bool CTX_wm_interface_locked(const bContext *C)
{
return C->wm.manager->runtime->is_interface_locked;
}
wmWindow *CTX_wm_window(const bContext *C)
{
return static_cast<wmWindow *>(
ctx_wm_python_context_get(C, "window", &RNA_Window, C->wm.window));
}
WorkSpace *CTX_wm_workspace(const bContext *C)
{
return static_cast<WorkSpace *>(
ctx_wm_python_context_get(C, "workspace", &RNA_WorkSpace, C->wm.workspace));
}
bScreen *CTX_wm_screen(const bContext *C)
{
return static_cast<bScreen *>(ctx_wm_python_context_get(C, "screen", &RNA_Screen, C->wm.screen));
}
ScrArea *CTX_wm_area(const bContext *C)
{
return static_cast<ScrArea *>(ctx_wm_python_context_get(C, "area", &RNA_Area, C->wm.area));
}
SpaceLink *CTX_wm_space_data(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
return (area) ? static_cast<SpaceLink *>(area->spacedata.first) : nullptr;
}
ARegion *CTX_wm_region(const bContext *C)
{
return static_cast<ARegion *>(ctx_wm_python_context_get(C, "region", &RNA_Region, C->wm.region));
}
void *CTX_wm_region_data(const bContext *C)
{
ARegion *region = CTX_wm_region(C);
return (region) ? region->regiondata : nullptr;
}
ARegion *CTX_wm_region_popup(const bContext *C)
{
return C->wm.region_popup;
}
wmGizmoGroup *CTX_wm_gizmo_group(const bContext *C)
{
return C->wm.gizmo_group;
}
wmMsgBus *CTX_wm_message_bus(const bContext *C)
{
return C->wm.manager ? C->wm.manager->runtime->message_bus : nullptr;
}
ReportList *CTX_wm_reports(const bContext *C)
{
if (C->wm.manager) {
return &(C->wm.manager->runtime->reports);
}
return nullptr;
}
View3D *CTX_wm_view3d(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_VIEW3D) {
return static_cast<View3D *>(area->spacedata.first);
}
return nullptr;
}
RegionView3D *CTX_wm_region_view3d(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
ARegion *region = CTX_wm_region(C);
if (area && area->spacetype == SPACE_VIEW3D) {
if (region && region->regiontype == RGN_TYPE_WINDOW) {
return static_cast<RegionView3D *>(region->regiondata);
}
}
return nullptr;
}
SpaceText *CTX_wm_space_text(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_TEXT) {
return static_cast<SpaceText *>(area->spacedata.first);
}
return nullptr;
}
SpaceConsole *CTX_wm_space_console(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_CONSOLE) {
return static_cast<SpaceConsole *>(area->spacedata.first);
}
return nullptr;
}
SpaceImage *CTX_wm_space_image(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_IMAGE) {
return static_cast<SpaceImage *>(area->spacedata.first);
}
return nullptr;
}
SpaceProperties *CTX_wm_space_properties(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_PROPERTIES) {
return static_cast<SpaceProperties *>(area->spacedata.first);
}
return nullptr;
}
SpaceFile *CTX_wm_space_file(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_FILE) {
return static_cast<SpaceFile *>(area->spacedata.first);
}
return nullptr;
}
SpaceSeq *CTX_wm_space_seq(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_SEQ) {
return static_cast<SpaceSeq *>(area->spacedata.first);
}
return nullptr;
}
SpaceOutliner *CTX_wm_space_outliner(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_OUTLINER) {
return static_cast<SpaceOutliner *>(area->spacedata.first);
}
return nullptr;
}
SpaceNla *CTX_wm_space_nla(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_NLA) {
return static_cast<SpaceNla *>(area->spacedata.first);
}
return nullptr;
}
SpaceNode *CTX_wm_space_node(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_NODE) {
return static_cast<SpaceNode *>(area->spacedata.first);
}
return nullptr;
}
SpaceGraph *CTX_wm_space_graph(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_GRAPH) {
return static_cast<SpaceGraph *>(area->spacedata.first);
}
return nullptr;
}
SpaceAction *CTX_wm_space_action(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_ACTION) {
return static_cast<SpaceAction *>(area->spacedata.first);
}
return nullptr;
}
SpaceInfo *CTX_wm_space_info(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_INFO) {
return static_cast<SpaceInfo *>(area->spacedata.first);
}
return nullptr;
}
SpaceUserPref *CTX_wm_space_userpref(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_USERPREF) {
return static_cast<SpaceUserPref *>(area->spacedata.first);
}
return nullptr;
}
SpaceClip *CTX_wm_space_clip(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_CLIP) {
return static_cast<SpaceClip *>(area->spacedata.first);
}
return nullptr;
}
SpaceTopBar *CTX_wm_space_topbar(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_TOPBAR) {
return static_cast<SpaceTopBar *>(area->spacedata.first);
}
return nullptr;
}
SpaceSpreadsheet *CTX_wm_space_spreadsheet(const bContext *C)
{
ScrArea *area = CTX_wm_area(C);
if (area && area->spacetype == SPACE_SPREADSHEET) {
return static_cast<SpaceSpreadsheet *>(area->spacedata.first);
}
return nullptr;
}
void CTX_wm_manager_set(bContext *C, wmWindowManager *wm)
{
C->wm.manager = wm;
C->wm.window = nullptr;
C->wm.screen = nullptr;
C->wm.area = nullptr;
C->wm.region = nullptr;
}
#ifdef WITH_PYTHON
# define PYCTX_REGION_MEMBERS "region", "region_data"
# define PYCTX_AREA_MEMBERS "area", "space_data", PYCTX_REGION_MEMBERS
# define PYCTX_SCREEN_MEMBERS "screen", PYCTX_AREA_MEMBERS
# define PYCTX_WINDOW_MEMBERS "window", "scene", "workspace", PYCTX_SCREEN_MEMBERS
#endif
void CTX_wm_window_set(bContext *C, wmWindow *win)
{
C->wm.window = win;
if (win) {
C->data.scene = win->scene;
}
C->wm.workspace = (win) ? BKE_workspace_active_get(win->workspace_hook) : nullptr;
C->wm.screen = (win) ? BKE_workspace_active_screen_get(win->workspace_hook) : nullptr;
C->wm.area = nullptr;
C->wm.region = nullptr;
#ifdef WITH_PYTHON
if (C->data.py_context != nullptr) {
const char *members[] = {PYCTX_WINDOW_MEMBERS};
BPY_context_dict_clear_members_array(
&C->data.py_context, C->data.py_context_orig, members, ARRAY_SIZE(members));
}
#endif
}
void CTX_wm_screen_set(bContext *C, bScreen *screen)
{
C->wm.screen = screen;
C->wm.area = nullptr;
C->wm.region = nullptr;
#ifdef WITH_PYTHON
if (C->data.py_context != nullptr) {
const char *members[] = {PYCTX_SCREEN_MEMBERS};
BPY_context_dict_clear_members_array(
&C->data.py_context, C->data.py_context_orig, members, ARRAY_SIZE(members));
}
#endif
}
void CTX_wm_area_set(bContext *C, ScrArea *area)
{
C->wm.area = area;
C->wm.region = nullptr;
#ifdef WITH_PYTHON
if (C->data.py_context != nullptr) {
const char *members[] = {PYCTX_AREA_MEMBERS};
BPY_context_dict_clear_members_array(
&C->data.py_context, C->data.py_context_orig, members, ARRAY_SIZE(members));
}
#endif
}
void CTX_wm_region_set(bContext *C, ARegion *region)
{
C->wm.region = region;
#ifdef WITH_PYTHON
if (C->data.py_context != nullptr) {
const char *members[] = {PYCTX_REGION_MEMBERS};
BPY_context_dict_clear_members_array(
&C->data.py_context, C->data.py_context_orig, members, ARRAY_SIZE(members));
}
#endif
}
void CTX_wm_region_popup_set(bContext *C, ARegion *region_popup)
{
BLI_assert(region_popup == nullptr || region_popup->regiontype == RGN_TYPE_TEMPORARY);
C->wm.region_popup = region_popup;
}
void CTX_wm_gizmo_group_set(bContext *C, wmGizmoGroup *gzgroup)
{
C->wm.gizmo_group = gzgroup;
}
void CTX_wm_operator_poll_msg_clear(bContext *C)
{
bContextPollMsgDyn_Params *params = &C->wm.operator_poll_msg_dyn_params;
if (params->free_fn != nullptr) {
params->free_fn(C, params->user_data);
}
params->get_fn = nullptr;
params->free_fn = nullptr;
params->user_data = nullptr;
C->wm.operator_poll_msg = nullptr;
}
void CTX_wm_operator_poll_msg_set(bContext *C, const char *msg)
{
CTX_wm_operator_poll_msg_clear(C);
C->wm.operator_poll_msg = msg;
}
void CTX_wm_operator_poll_msg_set_dynamic(bContext *C, const bContextPollMsgDyn_Params *params)
{
CTX_wm_operator_poll_msg_clear(C);
C->wm.operator_poll_msg_dyn_params = *params;
}
const char *CTX_wm_operator_poll_msg_get(bContext *C, bool *r_free)
{
bContextPollMsgDyn_Params *params = &C->wm.operator_poll_msg_dyn_params;
if (params->get_fn != nullptr) {
char *msg = params->get_fn(C, params->user_data);
if (msg != nullptr) {
*r_free = true;
}
return msg;
}
*r_free = false;
return IFACE_(C->wm.operator_poll_msg);
}
/* data context */
Main *CTX_data_main(const bContext *C)
{
Main *bmain;
if (ctx_data_pointer_verify(C, "blend_data", (void **)&bmain)) {
return bmain;
}
return C->data.main;
}
void CTX_data_main_set(bContext *C, Main *bmain)
{
C->data.main = bmain;
BKE_sound_refresh_callback_bmain(bmain);
}
Scene *CTX_data_scene(const bContext *C)
{
Scene *scene;
if (ctx_data_pointer_verify(C, "scene", (void **)&scene)) {
return scene;
}
return C->data.scene;
}
Scene *CTX_data_sequencer_scene(const bContext *C)
{
Scene *scene;
if (ctx_data_pointer_verify(C, "sequencer_scene", (void **)&scene)) {
return scene;
}
WorkSpace *workspace = CTX_wm_workspace(C);
if (workspace) {
return workspace->sequencer_scene;
}
return nullptr;
}
ViewLayer *CTX_data_view_layer(const bContext *C)
{
ViewLayer *view_layer;
if (ctx_data_pointer_verify(C, "view_layer", (void **)&view_layer)) {
return view_layer;
}
wmWindow *win = CTX_wm_window(C);
Scene *scene = CTX_data_scene(C);
if (win) {
view_layer = BKE_view_layer_find(scene, win->view_layer_name);
if (view_layer) {
return view_layer;
}
}
return BKE_view_layer_default_view(scene);
}
RenderEngineType *CTX_data_engine_type(const bContext *C)
{
Scene *scene = CTX_data_scene(C);
return RE_engines_find(scene->r.engine);
}
LayerCollection *CTX_data_layer_collection(const bContext *C)
{
ViewLayer *view_layer = CTX_data_view_layer(C);
LayerCollection *layer_collection;
if (ctx_data_pointer_verify(C, "layer_collection", (void **)&layer_collection)) {
if (BKE_view_layer_has_collection(view_layer, layer_collection->collection)) {
return layer_collection;
}
}
/* fallback */
return BKE_layer_collection_get_active(view_layer);
}
Collection *CTX_data_collection(const bContext *C)
{
Collection *collection;
if (ctx_data_pointer_verify(C, "collection", (void **)&collection)) {
return collection;
}
LayerCollection *layer_collection = CTX_data_layer_collection(C);
if (layer_collection) {
return layer_collection->collection;
}
/* fallback */
Scene *scene = CTX_data_scene(C);
return scene->master_collection;
}
enum eContextObjectMode CTX_data_mode_enum_ex(const Object *obedit,
const Object *ob,
const eObjectMode object_mode)
{
// Object *obedit = CTX_data_edit_object(C);
if (obedit) {
switch (obedit->type) {
case OB_MESH:
return CTX_MODE_EDIT_MESH;
case OB_CURVES_LEGACY:
return CTX_MODE_EDIT_CURVE;
case OB_SURF:
return CTX_MODE_EDIT_SURFACE;
case OB_FONT:
return CTX_MODE_EDIT_TEXT;
case OB_ARMATURE:
return CTX_MODE_EDIT_ARMATURE;
case OB_MBALL:
return CTX_MODE_EDIT_METABALL;
case OB_LATTICE:
return CTX_MODE_EDIT_LATTICE;
case OB_CURVES:
return CTX_MODE_EDIT_CURVES;
case OB_GREASE_PENCIL:
return CTX_MODE_EDIT_GREASE_PENCIL;
case OB_POINTCLOUD:
return CTX_MODE_EDIT_POINTCLOUD;
}
}
else {
// Object *ob = CTX_data_active_object(C);
if (ob) {
if (object_mode & OB_MODE_POSE) {
return CTX_MODE_POSE;
}
if (object_mode & OB_MODE_SCULPT) {
return CTX_MODE_SCULPT;
}
if (object_mode & OB_MODE_WEIGHT_PAINT) {
return CTX_MODE_PAINT_WEIGHT;
}
if (object_mode & OB_MODE_VERTEX_PAINT) {
return CTX_MODE_PAINT_VERTEX;
}
if (object_mode & OB_MODE_TEXTURE_PAINT) {
return CTX_MODE_PAINT_TEXTURE;
}
if (object_mode & OB_MODE_PARTICLE_EDIT) {
return CTX_MODE_PARTICLE;
}
if (object_mode & OB_MODE_PAINT_GREASE_PENCIL) {
if (ob->type == OB_GREASE_PENCIL) {
return CTX_MODE_PAINT_GREASE_PENCIL;
}
}
if (object_mode & OB_MODE_EDIT_GPENCIL_LEGACY) {
return CTX_MODE_EDIT_GPENCIL_LEGACY;
}
if (object_mode & OB_MODE_SCULPT_GREASE_PENCIL) {
if (ob->type == OB_GREASE_PENCIL) {
return CTX_MODE_SCULPT_GREASE_PENCIL;
}
}
if (object_mode & OB_MODE_WEIGHT_GREASE_PENCIL) {
if (ob->type == OB_GREASE_PENCIL) {
return CTX_MODE_WEIGHT_GREASE_PENCIL;
}
}
if (object_mode & OB_MODE_VERTEX_GREASE_PENCIL) {
if (ob->type == OB_GREASE_PENCIL) {
return CTX_MODE_VERTEX_GREASE_PENCIL;
}
}
if (object_mode & OB_MODE_SCULPT_CURVES) {
return CTX_MODE_SCULPT_CURVES;
}
}
}
return CTX_MODE_OBJECT;
}
enum eContextObjectMode CTX_data_mode_enum(const bContext *C)
{
Object *obedit = CTX_data_edit_object(C);
Object *obact = obedit ? nullptr : CTX_data_active_object(C);
return CTX_data_mode_enum_ex(obedit, obact, obact ? eObjectMode(obact->mode) : OB_MODE_OBJECT);
}
/**
* Would prefer if we can use the enum version below over this one - Campbell.
*
* \note Must be aligned with above enum.
*/
static const char *data_mode_strings[] = {
"mesh_edit",
"curve_edit",
"surface_edit",
"text_edit",
"armature_edit",
"mball_edit",
"lattice_edit",
"curves_edit",
"grease_pencil_edit",
"pointcloud_edit",
"posemode",
"sculpt_mode",
"weightpaint",
"vertexpaint",
"imagepaint",
"particlemode",
"objectmode",
"greasepencil_paint",
"greasepencil_edit",
"greasepencil_sculpt",
"greasepencil_weight",
"greasepencil_vertex",
"curves_sculpt",
"grease_pencil_paint",
"grease_pencil_sculpt",
"grease_pencil_weight",
"grease_pencil_vertex",
nullptr,
};
BLI_STATIC_ASSERT(ARRAY_SIZE(data_mode_strings) == CTX_MODE_NUM + 1,
"Must have a string for each context mode")
const char *CTX_data_mode_string(const bContext *C)
{
return data_mode_strings[CTX_data_mode_enum(C)];
}
void CTX_data_scene_set(bContext *C, Scene *scene)
{
C->data.scene = scene;
#ifdef WITH_PYTHON
if (C->data.py_context != nullptr) {
const char *members[] = {"scene"};
BPY_context_dict_clear_members_array(&C->data.py_context, C->data.py_context_orig, members, 1);
}
#endif
}
ToolSettings *CTX_data_tool_settings(const bContext *C)
{
ToolSettings *toolsettings;
if (ctx_data_pointer_verify(C, "tool_settings", (void **)&toolsettings)) {
return toolsettings;
}
Scene *scene = CTX_data_scene(C);
if (scene) {
return scene->toolsettings;
}
return nullptr;
}
bool CTX_data_selected_ids(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_ids", list);
}
bool CTX_data_selected_nodes(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_nodes", list);
}
bool CTX_data_selected_editable_objects(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_editable_objects", list);
}
bool CTX_data_selected_editable_bases(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_base_collection_get(C, "selected_editable_objects", list);
}
bool CTX_data_editable_objects(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "editable_objects", list);
}
bool CTX_data_editable_bases(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_base_collection_get(C, "editable_objects", list);
}
bool CTX_data_selected_objects(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_objects", list);
}
bool CTX_data_selected_bases(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_base_collection_get(C, "selected_objects", list);
}
bool CTX_data_visible_objects(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "visible_objects", list);
}
bool CTX_data_visible_bases(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_base_collection_get(C, "visible_objects", list);
}
bool CTX_data_selectable_objects(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selectable_objects", list);
}
bool CTX_data_selectable_bases(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_base_collection_get(C, "selectable_objects", list);
}
Object *CTX_data_active_object(const bContext *C)
{
return static_cast<Object *>(ctx_data_pointer_get(C, "active_object"));
}
Base *CTX_data_active_base(const bContext *C)
{
Object *ob = CTX_data_active_object(C);
if (ob == nullptr) {
return nullptr;
}
const Scene *scene = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
BKE_view_layer_synced_ensure(scene, view_layer);
return BKE_view_layer_base_find(view_layer, ob);
}
Object *CTX_data_edit_object(const bContext *C)
{
return static_cast<Object *>(ctx_data_pointer_get(C, "edit_object"));
}
Image *CTX_data_edit_image(const bContext *C)
{
return static_cast<Image *>(ctx_data_pointer_get(C, "edit_image"));
}
Text *CTX_data_edit_text(const bContext *C)
{
return static_cast<Text *>(ctx_data_pointer_get(C, "edit_text"));
}
MovieClip *CTX_data_edit_movieclip(const bContext *C)
{
return static_cast<MovieClip *>(ctx_data_pointer_get(C, "edit_movieclip"));
}
Mask *CTX_data_edit_mask(const bContext *C)
{
return static_cast<Mask *>(ctx_data_pointer_get(C, "edit_mask"));
}
EditBone *CTX_data_active_bone(const bContext *C)
{
return static_cast<EditBone *>(ctx_data_pointer_get(C, "active_bone"));
}
CacheFile *CTX_data_edit_cachefile(const bContext *C)
{
return static_cast<CacheFile *>(ctx_data_pointer_get(C, "edit_cachefile"));
}
bool CTX_data_selected_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_bones", list);
}
bool CTX_data_selected_editable_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_editable_bones", list);
}
bool CTX_data_visible_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "visible_bones", list);
}
bool CTX_data_editable_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "editable_bones", list);
}
bPoseChannel *CTX_data_active_pose_bone(const bContext *C)
{
return static_cast<bPoseChannel *>(ctx_data_pointer_get(C, "active_pose_bone"));
}
bool CTX_data_selected_pose_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_pose_bones", list);
}
bool CTX_data_selected_pose_bones_from_active_object(const bContext *C,
blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "selected_pose_bones_from_active_object", list);
}
bool CTX_data_visible_pose_bones(const bContext *C, blender::Vector<PointerRNA> *list)
{
return ctx_data_collection_get(C, "visible_pose_bones", list);
}
const AssetLibraryReference *CTX_wm_asset_library_ref(const bContext *C)
{
return static_cast<AssetLibraryReference *>(ctx_data_pointer_get(C, "asset_library_reference"));
}
blender::asset_system::AssetRepresentation *CTX_wm_asset(const bContext *C)
{
return static_cast<blender::asset_system::AssetRepresentation *>(
ctx_data_pointer_get(C, "asset"));
}
Depsgraph *CTX_data_depsgraph_pointer(const bContext *C)
{
Main *bmain = CTX_data_main(C);
Scene *scene = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
Depsgraph *depsgraph = BKE_scene_ensure_depsgraph(bmain, scene, view_layer);
/* Dependency graph might have been just allocated, and hence it will not be marked.
* This confuses redo system due to the lack of flushing changes back to the original data.
* In the future we would need to check whether the CTX_wm_window(C) is in editing mode (as an
* opposite of playback-preview-only) and set active flag based on that. */
DEG_make_active(depsgraph);
return depsgraph;
}
Depsgraph *CTX_data_expect_evaluated_depsgraph(const bContext *C)
{
Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C);
/* TODO(sergey): Assert that the dependency graph is fully evaluated.
* Note that first the depsgraph and scene post-evaluation hooks needs to run extra round of
* updates first to make check here really reliable. */
return depsgraph;
}
Depsgraph *CTX_data_ensure_evaluated_depsgraph(const bContext *C)
{
Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C);
Main *bmain = CTX_data_main(C);
BKE_scene_graph_evaluated_ensure(depsgraph, bmain);
return depsgraph;
}
Depsgraph *CTX_data_depsgraph_on_load(const bContext *C)
{
Scene *scene = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
return BKE_scene_get_depsgraph(scene, view_layer);
}
void CTX_member_logging_set(bContext *C, bool enable)
{
C->data.log_access = enable;
}
bool CTX_member_logging_get(const bContext *C)
{
return C->data.log_access;
}
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