/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkMemberInfo.h" #include "SkAnimateMaker.h" #include "SkAnimatorScript.h" #include "SkBase64.h" #include "SkCamera.h" #include "SkDisplayable.h" #include "SkDisplayTypes.h" #include "SkDraw3D.h" #include "SkDrawColor.h" #include "SkParse.h" #include "SkScript.h" #include "SkTSearch.h" #include "SkTypedArray.h" size_t SkMemberInfo::GetSize(SkDisplayTypes type) { // size of simple types only size_t byteSize; switch (type) { case SkType_ARGB: byteSize = sizeof(SkColor); break; case SkType_AddMode: case SkType_Align: case SkType_ApplyMode: case SkType_ApplyTransition: case SkType_BitmapEncoding: case SkType_Boolean: case SkType_Cap: case SkType_EventCode: case SkType_EventKind: case SkType_EventMode: case SkType_FilterType: case SkType_FontStyle: case SkType_FromPathMode: case SkType_Join: case SkType_MaskFilterBlurStyle: case SkType_PathDirection: case SkType_Style: case SkType_TileMode: case SkType_Xfermode: byteSize = sizeof(int); break; case SkType_Base64: // assume base64 data is always const, copied by ref case SkType_Displayable: case SkType_Drawable: case SkType_Matrix: byteSize = sizeof(void*); break; case SkType_MSec: byteSize = sizeof(SkMSec); break; case SkType_Point: byteSize = sizeof(SkPoint); break; case SkType_3D_Point: byteSize = sizeof(Sk3D_Point); break; case SkType_Int: byteSize = sizeof(int32_t); break; case SkType_Float: byteSize = sizeof(SkScalar); break; case SkType_DynamicString: case SkType_String: byteSize = sizeof(SkString); // assume we'll copy by reference, not value break; default: // SkASSERT(0); byteSize = 0; } return byteSize; } bool SkMemberInfo::getArrayValue(const SkDisplayable* displayable, int index, SkOperand* value) const { SkASSERT(fType != SkType_String && fType != SkType_MemberProperty); char* valuePtr = (char*) *(SkOperand**) memberData(displayable); SkDisplayTypes type = (SkDisplayTypes) 0; if (displayable->getType() == SkType_Array) { SkDisplayArray* dispArray = (SkDisplayArray*) displayable; if (dispArray->values.count() <= index) return false; type = dispArray->values.getType(); } else { SkASSERT(0); // incomplete } size_t byteSize = GetSize(type); memcpy(value, valuePtr + index * byteSize, byteSize); return true; } size_t SkMemberInfo::getSize(const SkDisplayable* displayable) const { size_t byteSize; switch (fType) { case SkType_MemberProperty: byteSize = GetSize(propertyType()); break; case SkType_Array: { SkDisplayTypes type; if (displayable == nullptr) return sizeof(int); if (displayable->getType() == SkType_Array) { SkDisplayArray* dispArray = (SkDisplayArray*) displayable; type = dispArray->values.getType(); } else type = propertyType(); SkTDOperandArray* array = (SkTDOperandArray*) memberData(displayable); byteSize = GetSize(type) * array->count(); } break; default: byteSize = GetSize((SkDisplayTypes) fType); } return byteSize; } void SkMemberInfo::getString(const SkDisplayable* displayable, SkString** string) const { if (fType == SkType_MemberProperty) { SkScriptValue value; displayable->getProperty(propertyIndex(), &value); SkASSERT(value.fType == SkType_String); *string = value.fOperand.fString; return; } SkASSERT(fCount == sizeof(SkString) / sizeof(SkScalar)); SkASSERT(fType == SkType_String || fType == SkType_DynamicString); void* valuePtr = memberData(displayable); *string = (SkString*) valuePtr; } void SkMemberInfo::getValue(const SkDisplayable* displayable, SkOperand value[], int count) const { SkASSERT(fType != SkType_String && fType != SkType_MemberProperty); SkASSERT(count == fCount); void* valuePtr = memberData(displayable); size_t byteSize = getSize(displayable); SkASSERT(sizeof(value[0].fScalar) == sizeof(value[0])); // no support for 64 bit pointers, yet memcpy(value, valuePtr, byteSize); } void SkMemberInfo::setString(SkDisplayable* displayable, SkString* value) const { SkString* string = (SkString*) memberData(displayable); string->set(*value); displayable->dirty(); } void SkMemberInfo::setValue(SkDisplayable* displayable, const SkOperand values[], int count) const { SkASSERT(sizeof(values[0].fScalar) == sizeof(values[0])); // no support for 64 bit pointers, yet char* dst = (char*) memberData(displayable); if (fType == SkType_Array) { SkTDScalarArray* array = (SkTDScalarArray* ) dst; array->setCount(count); dst = (char*) array->begin(); } memcpy(dst, values, count * sizeof(SkOperand)); displayable->dirty(); } static inline bool is_between(int c, int min, int max) { return (unsigned)(c - min) <= (unsigned)(max - min); } static inline bool is_hex(int c) { if (is_between(c, '0', '9')) return true; c |= 0x20; // make us lower-case if (is_between(c, 'a', 'f')) return true; return false; } bool SkMemberInfo::setValue(SkAnimateMaker& maker, SkTDOperandArray* arrayStorage, int storageOffset, int maxStorage, SkDisplayable* displayable, SkDisplayTypes outType, const char rawValue[], size_t rawValueLen) const { SkString valueStr(rawValue, rawValueLen); SkScriptValue scriptValue; scriptValue.fType = SkType_Unknown; scriptValue.fOperand.fS32 = 0; SkDisplayTypes type = getType(); SkAnimatorScript engine(maker, displayable, type); if (arrayStorage) displayable = nullptr; bool success = true; void* untypedStorage = nullptr; if (displayable && fType != SkType_MemberProperty && fType != SkType_MemberFunction) untypedStorage = (SkTDOperandArray*) memberData(displayable); if (type == SkType_ARGB) { // for both SpiderMonkey and SkiaScript, substitute any #xyz or #xxyyzz first // it's enough to expand the colors into 0xFFxxyyzz const char* poundPos; while ((poundPos = strchr(valueStr.c_str(), '#')) != nullptr) { size_t offset = poundPos - valueStr.c_str(); if (valueStr.size() - offset < 4) break; char r = poundPos[1]; char g = poundPos[2]; char b = poundPos[3]; if (is_hex(r) == false || is_hex(g) == false || is_hex(b) == false) break; char hex = poundPos[4]; if (is_hex(hex) == false) { valueStr.insertUnichar(offset + 1, r); valueStr.insertUnichar(offset + 3, g); valueStr.insertUnichar(offset + 5, b); } *(char*) poundPos = '0'; // overwrite '#' valueStr.insert(offset + 1, "xFF"); } } if (SkDisplayType::IsDisplayable(&maker, type) || SkDisplayType::IsEnum(&maker, type) || type == SkType_ARGB) goto scriptCommon; switch (type) { case SkType_String: #if 0 if (displayable && displayable->isAnimate()) { goto noScriptString; } if (strncmp(rawValue, "#string:", sizeof("#string:") - 1) == 0) { SkASSERT(sizeof("string") == sizeof("script")); char* stringHeader = valueStr.writable_str(); memcpy(&stringHeader[1], "script", sizeof("script") - 1); rawValue = valueStr.c_str(); goto noScriptString; } else #endif if (strncmp(rawValue, "#script:", sizeof("#script:") - 1) != 0) goto noScriptString; valueStr.remove(0, 8); case SkType_Unknown: case SkType_Int: case SkType_MSec: // for the purposes of script, MSec is treated as a Scalar case SkType_Point: case SkType_3D_Point: case SkType_Float: case SkType_Array: scriptCommon: { const char* script = valueStr.c_str(); success = engine.evaluateScript(&script, &scriptValue); if (success == false) { maker.setScriptError(engine); return false; } } SkASSERT(success); if (scriptValue.fType == SkType_Displayable) { if (type == SkType_String) { const char* charPtr = nullptr; maker.findKey(scriptValue.fOperand.fDisplayable, &charPtr); scriptValue.fOperand.fString = new SkString(charPtr); scriptValue.fType = SkType_String; engine.SkScriptEngine::track(scriptValue.fOperand.fString); break; } SkASSERT(SkDisplayType::IsDisplayable(&maker, type)); if (displayable) displayable->setReference(this, scriptValue.fOperand.fDisplayable); else arrayStorage->begin()[0].fDisplayable = scriptValue.fOperand.fDisplayable; return true; } if (type != scriptValue.fType) { if (scriptValue.fType == SkType_Array) { engine.forget(scriptValue.getArray()); goto writeStruct; // real structs have already been written by script } switch (type) { case SkType_String: success = engine.convertTo(SkType_String, &scriptValue); break; case SkType_MSec: case SkType_Float: success = engine.convertTo(SkType_Float, &scriptValue); break; case SkType_Int: success = engine.convertTo(SkType_Int, &scriptValue); break; case SkType_Array: success = engine.convertTo(arrayType(), &scriptValue); // !!! incomplete; create array of appropriate type and add scriptValue to it SkASSERT(0); break; case SkType_Displayable: case SkType_Drawable: return false; // no way to convert other types to this default: // to avoid warnings break; } if (success == false) return false; } if (type == SkType_MSec) scriptValue.fOperand.fMSec = SkScalarRoundToInt(scriptValue.fOperand.fScalar * 1000); scriptValue.fType = type; break; noScriptString: case SkType_DynamicString: if (fType == SkType_MemberProperty && displayable) { SkString string(rawValue, rawValueLen); SkScriptValue scriptValue; scriptValue.fOperand.fString = &string; scriptValue.fType = SkType_String; displayable->setProperty(propertyIndex(), scriptValue); } else if (displayable) { SkString* string = (SkString*) memberData(displayable); string->set(rawValue, rawValueLen); } else { SkASSERT(arrayStorage->count() == 1); arrayStorage->begin()->fString->set(rawValue, rawValueLen); } goto dirty; case SkType_Base64: { SkBase64 base64; base64.decode(rawValue, rawValueLen); *(SkBase64* ) untypedStorage = base64; } goto dirty; default: SkASSERT(0); break; } // if (SkDisplayType::IsStruct(type) == false) { writeStruct: if (writeValue(displayable, arrayStorage, storageOffset, maxStorage, untypedStorage, outType, scriptValue)) { maker.setErrorCode(SkDisplayXMLParserError::kUnexpectedType); return false; } } dirty: if (displayable) displayable->dirty(); return true; } bool SkMemberInfo::setValue(SkAnimateMaker& maker, SkTDOperandArray* arrayStorage, int storageOffset, int maxStorage, SkDisplayable* displayable, SkDisplayTypes outType, SkString& raw) const { return setValue(maker, arrayStorage, storageOffset, maxStorage, displayable, outType, raw.c_str(), raw.size()); } bool SkMemberInfo::writeValue(SkDisplayable* displayable, SkTDOperandArray* arrayStorage, int storageOffset, int maxStorage, void* untypedStorage, SkDisplayTypes outType, SkScriptValue& scriptValue) const { SkOperand* storage = untypedStorage ? (SkOperand*) untypedStorage : arrayStorage ? arrayStorage->begin() : nullptr; if (storage) storage += storageOffset; SkDisplayTypes type = getType(); if (fType == SkType_MemberProperty) { if(displayable) displayable->setProperty(propertyIndex(), scriptValue); else { SkASSERT(storageOffset < arrayStorage->count()); switch (scriptValue.fType) { case SkType_Boolean: case SkType_Float: case SkType_Int: memcpy(&storage->fScalar, &scriptValue.fOperand.fScalar, sizeof(SkScalar)); break; case SkType_Array: memcpy(&storage->fScalar, scriptValue.fOperand.fArray->begin(), scriptValue.fOperand.fArray->count() * sizeof(SkScalar)); break; case SkType_String: storage->fString->set(*scriptValue.fOperand.fString); break; default: SkASSERT(0); // type isn't handled yet } } } else if (fType == SkType_MemberFunction) { SkASSERT(scriptValue.fType == SkType_Array); if (displayable) displayable->executeFunction(displayable, this, scriptValue.fOperand.fArray, nullptr); else { int count = scriptValue.fOperand.fArray->count(); // SkASSERT(maxStorage == 0 || count == maxStorage); if (arrayStorage->count() == 2) arrayStorage->setCount(2 * count); else { storageOffset *= count; SkASSERT(count + storageOffset <= arrayStorage->count()); } memcpy(&(*arrayStorage)[storageOffset], scriptValue.fOperand.fArray->begin(), count * sizeof(SkOperand)); } } else if (fType == SkType_Array) { SkTypedArray* destArray = (SkTypedArray*) (untypedStorage ? untypedStorage : arrayStorage); SkASSERT(destArray); // destArray->setCount(0); if (scriptValue.fType != SkType_Array) { SkASSERT(type == scriptValue.fType); // SkASSERT(storageOffset + 1 <= maxStorage); destArray->setCount(storageOffset + 1); (*destArray)[storageOffset] = scriptValue.fOperand; } else { if (type == SkType_Unknown) { type = scriptValue.fOperand.fArray->getType(); destArray->setType(type); } SkASSERT(type == scriptValue.fOperand.fArray->getType()); int count = scriptValue.fOperand.fArray->count(); // SkASSERT(storageOffset + count <= maxStorage); destArray->setCount(storageOffset + count); memcpy(destArray->begin() + storageOffset, scriptValue.fOperand.fArray->begin(), sizeof(SkOperand) * count); } } else if (type == SkType_String) { SkString* string = untypedStorage ? (SkString*) untypedStorage : (*arrayStorage)[storageOffset].fString; string->set(*scriptValue.fOperand.fString); } else if (type == SkType_ARGB && outType == SkType_Float) { SkTypedArray* array = scriptValue.fOperand.fArray; SkASSERT(scriptValue.fType == SkType_Int || scriptValue.fType == SkType_ARGB || scriptValue.fType == SkType_Array); SkASSERT(scriptValue.fType != SkType_Array || (array != nullptr && array->getType() == SkType_Int)); int numberOfColors = scriptValue.fType == SkType_Array ? array->count() : 1; int numberOfComponents = numberOfColors * 4; // SkASSERT(maxStorage == 0 || maxStorage == numberOfComponents); if (maxStorage == 0) arrayStorage->setCount(numberOfComponents); for (int index = 0; index < numberOfColors; index++) { SkColor color = scriptValue.fType == SkType_Array ? (SkColor) array->begin()[index].fS32 : (SkColor) scriptValue.fOperand.fS32; storage[0].fScalar = SkIntToScalar(SkColorGetA(color)); storage[1].fScalar = SkIntToScalar(SkColorGetR(color)); storage[2].fScalar = SkIntToScalar(SkColorGetG(color)); storage[3].fScalar = SkIntToScalar(SkColorGetB(color)); storage += 4; } } else if (SkDisplayType::IsStruct(nullptr /* !!! maker*/, type)) { if (scriptValue.fType != SkType_Array) return true; // error SkASSERT(sizeof(SkScalar) == sizeof(SkOperand)); // !!! no 64 bit pointer support yet int count = scriptValue.fOperand.fArray->count(); if (count > 0) { SkASSERT(fCount == count); memcpy(storage, scriptValue.fOperand.fArray->begin(), count * sizeof(SkOperand)); } } else if (scriptValue.fType == SkType_Array) { SkASSERT(scriptValue.fOperand.fArray->getType() == type); SkASSERT(scriptValue.fOperand.fArray->count() == getCount()); memcpy(storage, scriptValue.fOperand.fArray->begin(), getCount() * sizeof(SkOperand)); } else { memcpy(storage, &scriptValue.fOperand, sizeof(SkOperand)); } return false; } //void SkMemberInfo::setValue(SkDisplayable* displayable, const char value[], const char name[]) const { // void* valuePtr = (void*) ((char*) displayable + fOffset); // switch (fType) { // case SkType_Point3D: { // static const char xyz[] = "x|y|z"; // int index = find_one(xyz, name); // SkASSERT(index >= 0); // valuePtr = (void*) ((char*) valuePtr + index * sizeof(SkScalar)); // } break; // default: // SkASSERT(0); // } // SkParse::FindScalar(value, (SkScalar*) valuePtr); // displayable->dirty(); //} #if SK_USE_CONDENSED_INFO == 0 // Find Nth memberInfo const SkMemberInfo* SkMemberInfo::Find(const SkMemberInfo info[], int count, int* index) { SkASSERT(*index >= 0); if (info->fType == SkType_BaseClassInfo) { const SkMemberInfo* inherited = (SkMemberInfo*) info->fName; const SkMemberInfo* result = SkMemberInfo::Find(inherited, info->fCount, index); if (result != nullptr) return result; if (--count == 0) return nullptr; info++; } SkASSERT(info->fName); SkASSERT(info->fType != SkType_BaseClassInfo); if (*index >= count) { *index -= count; return nullptr; } return &info[*index]; } // Find named memberinfo const SkMemberInfo* SkMemberInfo::Find(const SkMemberInfo info[], int count, const char** matchPtr) { const char* match = *matchPtr; if (info->fType == SkType_BaseClassInfo) { const SkMemberInfo* inherited = (SkMemberInfo*) info->fName; const SkMemberInfo* result = SkMemberInfo::Find(inherited, info->fCount, matchPtr); if (result != nullptr) return result; if (--count == 0) return nullptr; info++; } SkASSERT(info->fName); SkASSERT(info->fType != SkType_BaseClassInfo); int index = SkStrSearch(&info->fName, count, match, sizeof(*info)); if (index < 0 || index >= count) return nullptr; return &info[index]; } const SkMemberInfo* SkMemberInfo::getInherited() const { return (SkMemberInfo*) fName; } #endif // SK_USE_CONDENSED_INFO == 0 #if 0 bool SkMemberInfo::SetValue(void* valuePtr, const char value[], SkDisplayTypes type, int count) { switch (type) { case SkType_Animate: case SkType_BaseBitmap: case SkType_Bitmap: case SkType_Dash: case SkType_Displayable: case SkType_Drawable: case SkType_Matrix: case SkType_Path: case SkType_Text: case SkType_3D_Patch: return false; // ref to object; caller must resolve case SkType_MSec: { SkParse::FindMSec(value, (SkMSec*) valuePtr); } break; case SkType_3D_Point: case SkType_Point: // case SkType_PointArray: case SkType_ScalarArray: SkParse::FindScalars(value, (SkScalar*) valuePtr, count); break; default: SkASSERT(0); } return true; } #endif