// Copyright (c) 2012 Marshall A. Greenblatt. All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the name Chromium Embedded // Framework nor the names of its contributors may be used to endorse // or promote products derived from this software without specific prior // written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // --------------------------------------------------------------------------- // // This file was generated by the CEF translator tool and should not edited // by hand. See the translator.README.txt file in the tools directory for // more information. // #ifndef CEF_INCLUDE_CAPI_CEF_V8_CAPI_H_ #define CEF_INCLUDE_CAPI_CEF_V8_CAPI_H_ #pragma once #ifdef __cplusplus extern "C" { #endif #include "include/capi/cef_base_capi.h" /// // Register a new V8 extension with the specified JavaScript extension code and // handler. Functions implemented by the handler are prototyped using the // keyword 'native'. The calling of a native function is restricted to the scope // in which the prototype of the native function is defined. This function may // be called on any thread. // // Example JavaScript extension code:
// // create the 'example' global object if it doesn't already exist. // if (!example) // example = {}; // // create the 'example.test' global object if it doesn't already exist. // if (!example.test) // example.test = {}; // (function() { // // Define the function 'example.test.myfunction'. // example.test.myfunction = function() { // // Call CefV8Handler::Execute() with the function name 'MyFunction' // // and no arguments. // native function MyFunction(); // return MyFunction(); // }; // // Define the getter function for parameter 'example.test.myparam'. // example.test.__defineGetter__('myparam', function() { // // Call CefV8Handler::Execute() with the function name 'GetMyParam' // // and no arguments. // native function GetMyParam(); // return GetMyParam(); // }); // // Define the setter function for parameter 'example.test.myparam'. // example.test.__defineSetter__('myparam', function(b) { // // Call CefV8Handler::Execute() with the function name 'SetMyParam' // // and a single argument. // native function SetMyParam(); // if(b) SetMyParam(b); // }); // // // Extension definitions can also contain normal JavaScript variables // // and functions. // var myint = 0; // example.test.increment = function() { // myint += 1; // return myint; // }; // })(); //Example usage in the page:
// // Call the function. // example.test.myfunction(); // // Set the parameter. // example.test.myparam = value; // // Get the parameter. // value = example.test.myparam; // // Call another function. // example.test.increment(); ///// CEF_EXPORT int cef_register_extension(const cef_string_t* extension_name, const cef_string_t* javascript_code, struct _cef_v8handler_t* handler); /// // Structure that encapsulates a V8 context handle. /// typedef struct _cef_v8context_t { /// // Base structure. /// cef_base_t base; /// // Returns the browser for this context. /// struct _cef_browser_t* (CEF_CALLBACK *get_browser)( struct _cef_v8context_t* self); /// // Returns the frame for this context. /// struct _cef_frame_t* (CEF_CALLBACK *get_frame)(struct _cef_v8context_t* self); /// // Returns the global object for this context. /// struct _cef_v8value_t* (CEF_CALLBACK *get_global)( struct _cef_v8context_t* self); /// // Enter this context. A context must be explicitly entered before creating a // V8 Object, Array or Function asynchronously. exit() must be called the same // number of times as enter() before releasing this context. V8 objects belong // to the context in which they are created. Returns true (1) if the scope was // entered successfully. /// int (CEF_CALLBACK *enter)(struct _cef_v8context_t* self); /// // Exit this context. Call this function only after calling enter(). Returns // true (1) if the scope was exited successfully. /// int (CEF_CALLBACK *exit)(struct _cef_v8context_t* self); /// // Returns true (1) if this object is pointing to the same handle as |that| // object. /// int (CEF_CALLBACK *is_same)(struct _cef_v8context_t* self, struct _cef_v8context_t* that); } cef_v8context_t; /// // Returns the current (top) context object in the V8 context stack. /// CEF_EXPORT cef_v8context_t* cef_v8context_get_current_context(); /// // Returns the entered (bottom) context object in the V8 context stack. /// CEF_EXPORT cef_v8context_t* cef_v8context_get_entered_context(); /// // Returns true (1) if V8 is currently inside a context. /// CEF_EXPORT int cef_v8context_in_context(); /// // Structure that should be implemented to handle V8 function calls. The // functions of this structure will always be called on the UI thread. /// typedef struct _cef_v8handler_t { /// // Base structure. /// cef_base_t base; /// // Handle execution of the function identified by |name|. |object| is the // receiver ('this' object) of the function. |arguments| is the list of // arguments passed to the function. If execution succeeds set |retval| to the // function return value. If execution fails set |exception| to the exception // that will be thrown. Return true (1) if execution was handled. /// int (CEF_CALLBACK *execute)(struct _cef_v8handler_t* self, const cef_string_t* name, struct _cef_v8value_t* object, size_t argumentsCount, struct _cef_v8value_t* const* arguments, struct _cef_v8value_t** retval, cef_string_t* exception); } cef_v8handler_t; /// // Structure that should be implemented to handle V8 accessor calls. Accessor // identifiers are registered by calling cef_v8value_t::set_value_byaccessor(). // The functions of this structure will always be called on the UI thread. /// typedef struct _cef_v8accessor_t { /// // Base structure. /// cef_base_t base; /// // Handle retrieval the accessor value identified by |name|. |object| is the // receiver ('this' object) of the accessor. If retrieval succeeds set // |retval| to the return value. If retrieval fails set |exception| to the // exception that will be thrown. Return true (1) if accessor retrieval was // handled. /// int (CEF_CALLBACK *get)(struct _cef_v8accessor_t* self, const cef_string_t* name, struct _cef_v8value_t* object, struct _cef_v8value_t** retval, cef_string_t* exception); /// // Handle assignment of the accessor value identified by |name|. |object| is // the receiver ('this' object) of the accessor. |value| is the new value // being assigned to the accessor. If assignment fails set |exception| to the // exception that will be thrown. Return true (1) if accessor assignment was // handled. /// int (CEF_CALLBACK *set)(struct _cef_v8accessor_t* self, const cef_string_t* name, struct _cef_v8value_t* object, struct _cef_v8value_t* value, cef_string_t* exception); } cef_v8accessor_t; /// // Structure representing a V8 exception. /// typedef struct _cef_v8exception_t { /// // Base structure. /// cef_base_t base; /// // Returns the exception message. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t (CEF_CALLBACK *get_message)( struct _cef_v8exception_t* self); /// // Returns the line of source code that the exception occurred within. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t (CEF_CALLBACK *get_source_line)( struct _cef_v8exception_t* self); /// // Returns the resource name for the script from where the function causing // the error originates. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t (CEF_CALLBACK *get_script_resource_name)( struct _cef_v8exception_t* self); /// // Returns the 1-based number of the line where the error occurred or 0 if the // line number is unknown. /// int (CEF_CALLBACK *get_line_number)(struct _cef_v8exception_t* self); /// // Returns the index within the script of the first character where the error // occurred. /// int (CEF_CALLBACK *get_start_position)(struct _cef_v8exception_t* self); /// // Returns the index within the script of the last character where the error // occurred. /// int (CEF_CALLBACK *get_end_position)(struct _cef_v8exception_t* self); /// // Returns the index within the line of the first character where the error // occurred. /// int (CEF_CALLBACK *get_start_column)(struct _cef_v8exception_t* self); /// // Returns the index within the line of the last character where the error // occurred. /// int (CEF_CALLBACK *get_end_column)(struct _cef_v8exception_t* self); } cef_v8exception_t; /// // Structure representing a V8 value. The functions of this structure should // only be called on the UI thread. /// typedef struct _cef_v8value_t { /// // Base structure. /// cef_base_t base; /// // True if the value type is undefined. /// int (CEF_CALLBACK *is_undefined)(struct _cef_v8value_t* self); /// // True if the value type is null. /// int (CEF_CALLBACK *is_null)(struct _cef_v8value_t* self); /// // True if the value type is bool. /// int (CEF_CALLBACK *is_bool)(struct _cef_v8value_t* self); /// // True if the value type is int. /// int (CEF_CALLBACK *is_int)(struct _cef_v8value_t* self); /// // True if the value type is double. /// int (CEF_CALLBACK *is_double)(struct _cef_v8value_t* self); /// // True if the value type is Date. /// int (CEF_CALLBACK *is_date)(struct _cef_v8value_t* self); /// // True if the value type is string. /// int (CEF_CALLBACK *is_string)(struct _cef_v8value_t* self); /// // True if the value type is object. /// int (CEF_CALLBACK *is_object)(struct _cef_v8value_t* self); /// // True if the value type is array. /// int (CEF_CALLBACK *is_array)(struct _cef_v8value_t* self); /// // True if the value type is function. /// int (CEF_CALLBACK *is_function)(struct _cef_v8value_t* self); /// // Returns true (1) if this object is pointing to the same handle as |that| // object. /// int (CEF_CALLBACK *is_same)(struct _cef_v8value_t* self, struct _cef_v8value_t* that); /// // Return a bool value. The underlying data will be converted to if // necessary. /// int (CEF_CALLBACK *get_bool_value)(struct _cef_v8value_t* self); /// // Return an int value. The underlying data will be converted to if // necessary. /// int (CEF_CALLBACK *get_int_value)(struct _cef_v8value_t* self); /// // Return a double value. The underlying data will be converted to if // necessary. /// double (CEF_CALLBACK *get_double_value)(struct _cef_v8value_t* self); /// // Return a Date value. The underlying data will be converted to if // necessary. /// cef_time_t (CEF_CALLBACK *get_date_value)(struct _cef_v8value_t* self); /// // Return a string value. The underlying data will be converted to if // necessary. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t (CEF_CALLBACK *get_string_value)( struct _cef_v8value_t* self); // OBJECT METHODS - These functions are only available on objects. Arrays and // functions are also objects. String- and integer-based keys can be used // interchangably with the framework converting between them as necessary. /// // Returns true (1) if the object has a value with the specified identifier. /// int (CEF_CALLBACK *has_value_bykey)(struct _cef_v8value_t* self, const cef_string_t* key); /// // Returns true (1) if the object has a value with the specified identifier. /// int (CEF_CALLBACK *has_value_byindex)(struct _cef_v8value_t* self, int index); /// // Delete the value with the specified identifier. /// int (CEF_CALLBACK *delete_value_bykey)(struct _cef_v8value_t* self, const cef_string_t* key); /// // Delete the value with the specified identifier. /// int (CEF_CALLBACK *delete_value_byindex)(struct _cef_v8value_t* self, int index); /// // Returns the value with the specified identifier. /// struct _cef_v8value_t* (CEF_CALLBACK *get_value_bykey)( struct _cef_v8value_t* self, const cef_string_t* key); /// // Returns the value with the specified identifier. /// struct _cef_v8value_t* (CEF_CALLBACK *get_value_byindex)( struct _cef_v8value_t* self, int index); /// // Associate a value with the specified identifier. /// int (CEF_CALLBACK *set_value_bykey)(struct _cef_v8value_t* self, const cef_string_t* key, struct _cef_v8value_t* value, enum cef_v8_propertyattribute_t attribute); /// // Associate a value with the specified identifier. /// int (CEF_CALLBACK *set_value_byindex)(struct _cef_v8value_t* self, int index, struct _cef_v8value_t* value); /// // Register an identifier whose access will be forwarded to the // cef_v8accessor_t instance passed to // cef_v8value_t::cef_v8value_create_object_with_accessor(). /// int (CEF_CALLBACK *set_value_byaccessor)(struct _cef_v8value_t* self, const cef_string_t* key, enum cef_v8_accesscontrol_t settings, enum cef_v8_propertyattribute_t attribute); /// // Read the keys for the object's values into the specified vector. Integer- // based keys will also be returned as strings. /// int (CEF_CALLBACK *get_keys)(struct _cef_v8value_t* self, cef_string_list_t keys); /// // Returns the user data, if any, specified when the object was created. /// struct _cef_base_t* (CEF_CALLBACK *get_user_data)( struct _cef_v8value_t* self); /// // Returns the amount of externally allocated memory registered for the // object. /// int (CEF_CALLBACK *get_externally_allocated_memory)( struct _cef_v8value_t* self); /// // Adjusts the amount of registered external memory for the object. Used to // give V8 an indication of the amount of externally allocated memory that is // kept alive by JavaScript objects. V8 uses this information to decide when // to perform global garbage collection. Each cef_v8value_t tracks the amount // of external memory associated with it and automatically decreases the // global total by the appropriate amount on its destruction. // |change_in_bytes| specifies the number of bytes to adjust by. This function // returns the number of bytes associated with the object after the // adjustment. /// int (CEF_CALLBACK *adjust_externally_allocated_memory)( struct _cef_v8value_t* self, int change_in_bytes); // ARRAY METHODS - These functions are only available on arrays. /// // Returns the number of elements in the array. /// int (CEF_CALLBACK *get_array_length)(struct _cef_v8value_t* self); // FUNCTION METHODS - These functions are only available on functions. /// // Returns the function name. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t (CEF_CALLBACK *get_function_name)( struct _cef_v8value_t* self); /// // Returns the function handler or NULL if not a CEF-created function. /// struct _cef_v8handler_t* (CEF_CALLBACK *get_function_handler)( struct _cef_v8value_t* self); /// // Execute the function using the current V8 context. This function should // only be called from within the scope of a cef_v8handler_t or // cef_v8accessor_t callback, or in combination with calling enter() and // exit() on a stored cef_v8context_t reference. |object| is the receiver // ('this' object) of the function. |arguments| is the list of arguments that // will be passed to the function. If execution succeeds |retval| will be set // to the function return value. If execution fails |exception| will be set to // the exception that was thrown. If |rethrow_exception| is true (1) any // exception will also be re- thrown. This function returns false (0) if // called incorrectly. /// int (CEF_CALLBACK *execute_function)(struct _cef_v8value_t* self, struct _cef_v8value_t* object, size_t argumentsCount, struct _cef_v8value_t* const* arguments, struct _cef_v8value_t** retval, struct _cef_v8exception_t** exception, int rethrow_exception); /// // Execute the function using the specified V8 context. |object| is the // receiver ('this' object) of the function. |arguments| is the list of // arguments that will be passed to the function. If execution succeeds // |retval| will be set to the function return value. If execution fails // |exception| will be set to the exception that was thrown. If // |rethrow_exception| is true (1) any exception will also be re-thrown. This // function returns false (0) if called incorrectly. /// int (CEF_CALLBACK *execute_function_with_context)(struct _cef_v8value_t* self, struct _cef_v8context_t* context, struct _cef_v8value_t* object, size_t argumentsCount, struct _cef_v8value_t* const* arguments, struct _cef_v8value_t** retval, struct _cef_v8exception_t** exception, int rethrow_exception); } cef_v8value_t; /// // Create a new cef_v8value_t object of type undefined. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_undefined(); /// // Create a new cef_v8value_t object of type null. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_null(); /// // Create a new cef_v8value_t object of type bool. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_bool(int value); /// // Create a new cef_v8value_t object of type int. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_int(int value); /// // Create a new cef_v8value_t object of type double. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_double(double value); /// // Create a new cef_v8value_t object of type Date. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_date(const cef_time_t* date); /// // Create a new cef_v8value_t object of type string. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_string(const cef_string_t* value); /// // Create a new cef_v8value_t object of type object with optional user data and // accessor. This function should only be called from within the scope of a // cef_v8context_tHandler, cef_v8handler_t or cef_v8accessor_t callback, or in // combination with calling enter() and exit() on a stored cef_v8context_t // reference. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_object_with_accessor( cef_base_t* user_data, cef_v8accessor_t* accessor); /// // Create a new cef_v8value_t object of type array. This function should only be // called from within the scope of a cef_v8context_tHandler, cef_v8handler_t or // cef_v8accessor_t callback, or in combination with calling enter() and exit() // on a stored cef_v8context_t reference. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_array(); /// // Create a new cef_v8value_t object of type function. This function should only // be called from within the scope of a cef_v8context_tHandler, cef_v8handler_t // or cef_v8accessor_t callback, or in combination with calling enter() and // exit() on a stored cef_v8context_t reference. /// CEF_EXPORT cef_v8value_t* cef_v8value_create_function(const cef_string_t* name, cef_v8handler_t* handler); #ifdef __cplusplus } #endif #endif // CEF_INCLUDE_CAPI_CEF_V8_CAPI_H_