ppapi/cpp/var.cc - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ppapi/cpp/var.h"

 #include <stddef.h>
 #include <stdio.h>
 #include <string.h>

 #include <algorithm>

 #include "ppapi/c/pp_var.h"
 #include "ppapi/c/ppb_var.h"
 #include "ppapi/cpp/instance.h"
 #include "ppapi/cpp/logging.h"
 #include "ppapi/cpp/module.h"
 #include "ppapi/cpp/module_impl.h"

 // Define equivalent to snprintf on Windows.
 #if defined(_MSC_VER)
 #  define snprintf sprintf_s
 #endif

 namespace pp {

 namespace {

 template <> const char* interface_name<PPB_Var_1_2>() {
   return PPB_VAR_INTERFACE_1_2;
 }
 template <> const char* interface_name<PPB_Var_1_1>() {
   return PPB_VAR_INTERFACE_1_1;
 }
 template <> const char* interface_name<PPB_Var_1_0>() {
   return PPB_VAR_INTERFACE_1_0;
 }

 // Technically you can call AddRef and Release on any Var, but it may involve
 // cross-process calls depending on the plugin. This is an optimization so we
 // only do refcounting on the necessary objects.
 inline bool NeedsRefcounting(const PP_Var& var) {
   return var.type > PP_VARTYPE_DOUBLE;
 }

 // This helper function uses the latest available version of VarFromUtf8. Note
 // that version 1.0 of this method has a different API to later versions.
 PP_Var VarFromUtf8Helper(const char* utf8_str, uint32_t len) {
   if (has_interface<PPB_Var_1_2>()) {
     return get_interface<PPB_Var_1_2>()->VarFromUtf8(utf8_str, len);
   } else if (has_interface<PPB_Var_1_1>()) {
     return get_interface<PPB_Var_1_1>()->VarFromUtf8(utf8_str, len);
   } else if (has_interface<PPB_Var_1_0>()) {
     return get_interface<PPB_Var_1_0>()->VarFromUtf8(Module::Get()->pp_module(),
                                                      utf8_str,
                                                      len);
   }
   return PP_MakeNull();
 }

 // This helper function uses the latest available version of AddRef.
 // Returns true on success, false if no appropriate interface was available.
 bool AddRefHelper(const PP_Var& var) {
   if (has_interface<PPB_Var_1_2>()) {
     get_interface<PPB_Var_1_2>()->AddRef(var);
     return true;
   } else if (has_interface<PPB_Var_1_1>()) {
     get_interface<PPB_Var_1_1>()->AddRef(var);
     return true;
   } else if (has_interface<PPB_Var_1_0>()) {
     get_interface<PPB_Var_1_0>()->AddRef(var);
     return true;
   }
   return false;
 }

 // This helper function uses the latest available version of Release.
 // Returns true on success, false if no appropriate interface was available.
 bool ReleaseHelper(const PP_Var& var) {
   if (has_interface<PPB_Var_1_2>()) {
     get_interface<PPB_Var_1_2>()->Release(var);
     return true;
   } else if (has_interface<PPB_Var_1_1>()) {
     get_interface<PPB_Var_1_1>()->Release(var);
     return true;
   } else if (has_interface<PPB_Var_1_0>()) {
     get_interface<PPB_Var_1_0>()->Release(var);
     return true;
   }
   return false;
 }

 }  // namespace

 Var::Var() {
   memset(&var_, 0, sizeof(var_));
   var_.type = PP_VARTYPE_UNDEFINED;
   is_managed_ = true;
 }

 Var::Var(Null) {
   memset(&var_, 0, sizeof(var_));
   var_.type = PP_VARTYPE_NULL;
   is_managed_ = true;
 }

 Var::Var(bool b) {
   var_.type = PP_VARTYPE_BOOL;
   var_.padding = 0;
   var_.value.as_bool = PP_FromBool(b);
   is_managed_ = true;
 }

 Var::Var(int32_t i) {
   var_.type = PP_VARTYPE_INT32;
   var_.padding = 0;
   var_.value.as_int = i;
   is_managed_ = true;
 }

 Var::Var(double d) {
   var_.type = PP_VARTYPE_DOUBLE;
   var_.padding = 0;
   var_.value.as_double = d;
   is_managed_ = true;
 }

 Var::Var(const char* utf8_str) {
   uint32_t len = utf8_str ? static_cast<uint32_t>(strlen(utf8_str)) : 0;
   var_ = VarFromUtf8Helper(utf8_str, len);
   is_managed_ = true;
 }

 Var::Var(const std::string& utf8_str) {
   var_ = VarFromUtf8Helper(utf8_str.c_str(),
                            static_cast<uint32_t>(utf8_str.size()));
   is_managed_ = true;
 }

 Var::Var(const pp::Resource& resource) {
   if (has_interface<PPB_Var_1_2>()) {
     var_ = get_interface<PPB_Var_1_2>()->VarFromResource(
         resource.pp_resource());
   } else {
     PP_NOTREACHED();
     return;
   }
   // Set |is_managed_| to true, so |var_| will be properly released upon
   // destruction.
   is_managed_ = true;
 }


 Var::Var(const PP_Var& var) {
   var_ = var;
   is_managed_ = true;
   if (NeedsRefcounting(var_)) {
     if (!AddRefHelper(var_))
       var_.type = PP_VARTYPE_NULL;
   }
 }

 Var::Var(const Var& other) {
   var_ = other.var_;
   is_managed_ = true;
   if (NeedsRefcounting(var_)) {
     if (!AddRefHelper(var_))
       var_.type = PP_VARTYPE_NULL;
   }
 }

 Var::~Var() {
   if (NeedsRefcounting(var_) && is_managed_)
     ReleaseHelper(var_);
 }

 Var& Var::operator=(const Var& other) {
   // Early return for self-assignment. Note however, that two distinct vars
   // can refer to the same object, so we still need to be careful about the
   // refcounting below.
   if (this == &other)
     return *this;

   // Be careful to keep the ref alive for cases where we're assigning an
   // object to itself by addrefing the new one before releasing the old one.
   bool old_is_managed = is_managed_;
   is_managed_ = true;
   if (NeedsRefcounting(other.var_)) {
     AddRefHelper(other.var_);
   }
   if (NeedsRefcounting(var_) && old_is_managed)
     ReleaseHelper(var_);

   var_ = other.var_;
   return *this;
 }

 bool Var::operator==(const Var& other) const {
   if (var_.type != other.var_.type)
     return false;
   switch (var_.type) {
     case PP_VARTYPE_UNDEFINED:
     case PP_VARTYPE_NULL:
       return true;
     case PP_VARTYPE_BOOL:
       return AsBool() == other.AsBool();
     case PP_VARTYPE_INT32:
       return AsInt() == other.AsInt();
     case PP_VARTYPE_DOUBLE:
       return AsDouble() == other.AsDouble();
     case PP_VARTYPE_STRING:
       if (var_.value.as_id == other.var_.value.as_id)
         return true;
       return AsString() == other.AsString();
     case PP_VARTYPE_OBJECT:
     case PP_VARTYPE_ARRAY:
     case PP_VARTYPE_ARRAY_BUFFER:
     case PP_VARTYPE_DICTIONARY:
     case PP_VARTYPE_RESOURCE:
     default:  // Objects, arrays, dictionaries, resources.
       return var_.value.as_id == other.var_.value.as_id;
   }
 }

 bool Var::AsBool() const {
   if (!is_bool()) {
     PP_NOTREACHED();
     return false;
   }
   return PP_ToBool(var_.value.as_bool);
 }

 int32_t Var::AsInt() const {
   if (is_int())
     return var_.value.as_int;
   if (is_double())
     return static_cast<int>(var_.value.as_double);
   PP_NOTREACHED();
   return 0;
 }

 double Var::AsDouble() const {
   if (is_double())
     return var_.value.as_double;
   if (is_int())
     return static_cast<double>(var_.value.as_int);
   PP_NOTREACHED();
   return 0.0;
 }

 std::string Var::AsString() const {
   if (!is_string()) {
     PP_NOTREACHED();
     return std::string();
   }

   uint32_t len;
   const char* str;
   if (has_interface<PPB_Var_1_2>())
     str = get_interface<PPB_Var_1_2>()->VarToUtf8(var_, &len);
   else if (has_interface<PPB_Var_1_1>())
     str = get_interface<PPB_Var_1_1>()->VarToUtf8(var_, &len);
   else if (has_interface<PPB_Var_1_0>())
     str = get_interface<PPB_Var_1_0>()->VarToUtf8(var_, &len);
   else
     return std::string();
   return std::string(str, len);
 }

 pp::Resource Var::AsResource() const {
   if (!is_resource()) {
     PP_NOTREACHED();
     return pp::Resource();
   }

   if (has_interface<PPB_Var_1_2>()) {
     return pp::Resource(pp::PASS_REF,
                         get_interface<PPB_Var_1_2>()->VarToResource(var_));
   } else {
     return pp::Resource();
   }
 }

 std::string Var::DebugString() const {
   char buf[256];
   if (is_undefined()) {
     snprintf(buf, sizeof(buf), "Var(UNDEFINED)");
   } else if (is_null()) {
     snprintf(buf, sizeof(buf), "Var(NULL)");
   } else if (is_bool()) {
     snprintf(buf, sizeof(buf), AsBool() ? "Var(true)" : "Var(false)");
   } else if (is_int()) {
     snprintf(buf, sizeof(buf), "Var(%d)", static_cast<int>(AsInt()));
   } else if (is_double()) {
     snprintf(buf, sizeof(buf), "Var(%f)", AsDouble());
   } else if (is_string()) {
     char format[] = "Var<'%s'>";
     size_t decoration = sizeof(format) - 2;  // The %s is removed.
     size_t available = sizeof(buf) - decoration;
     std::string str = AsString();
     if (str.length() > available) {
       str.resize(available - 3);  // Reserve space for ellipsis.
       str.append("...");
     }
     snprintf(buf, sizeof(buf), format, str.c_str());
   } else if (is_object()) {
     snprintf(buf, sizeof(buf), "Var(OBJECT)");
   } else if (is_array()) {
     snprintf(buf, sizeof(buf), "Var(ARRAY)");
   } else if (is_dictionary()) {
     snprintf(buf, sizeof(buf), "Var(DICTIONARY)");
   } else if (is_array_buffer()) {
     snprintf(buf, sizeof(buf), "Var(ARRAY_BUFFER)");
   } else if (is_resource()) {
     snprintf(buf, sizeof(buf), "Var(RESOURCE)");
   } else {
     buf[0] = '\0';
   }
   return buf;
 }

 }  // namespace pp
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ppapi/cpp/var.h"

	#include <stddef.h>
	#include <stdio.h>
	#include <string.h>

	#include <algorithm>

	#include "ppapi/c/pp_var.h"
	#include "ppapi/c/ppb_var.h"
	#include "ppapi/cpp/instance.h"
	#include "ppapi/cpp/logging.h"
	#include "ppapi/cpp/module.h"
	#include "ppapi/cpp/module_impl.h"

	// Define equivalent to snprintf on Windows.
	#if defined(_MSC_VER)
	# define snprintf sprintf_s
	#endif

	namespace pp {

	namespace {

	template <> const char* interface_name<PPB_Var_1_2>() {
	return PPB_VAR_INTERFACE_1_2;
	}
	template <> const char* interface_name<PPB_Var_1_1>() {
	return PPB_VAR_INTERFACE_1_1;
	}
	template <> const char* interface_name<PPB_Var_1_0>() {
	return PPB_VAR_INTERFACE_1_0;
	}

	// Technically you can call AddRef and Release on any Var, but it may involve
	// cross-process calls depending on the plugin. This is an optimization so we
	// only do refcounting on the necessary objects.
	inline bool NeedsRefcounting(const PP_Var& var) {
	return var.type > PP_VARTYPE_DOUBLE;
	}

	// This helper function uses the latest available version of VarFromUtf8. Note
	// that version 1.0 of this method has a different API to later versions.
	PP_Var VarFromUtf8Helper(const char* utf8_str, uint32_t len) {
	if (has_interface<PPB_Var_1_2>()) {
	return get_interface<PPB_Var_1_2>()->VarFromUtf8(utf8_str, len);
	} else if (has_interface<PPB_Var_1_1>()) {
	return get_interface<PPB_Var_1_1>()->VarFromUtf8(utf8_str, len);
	} else if (has_interface<PPB_Var_1_0>()) {
	return get_interface<PPB_Var_1_0>()->VarFromUtf8(Module::Get()->pp_module(),
	utf8_str,
	len);
	}
	return PP_MakeNull();
	}

	// This helper function uses the latest available version of AddRef.
	// Returns true on success, false if no appropriate interface was available.
	bool AddRefHelper(const PP_Var& var) {
	if (has_interface<PPB_Var_1_2>()) {
	get_interface<PPB_Var_1_2>()->AddRef(var);
	return true;
	} else if (has_interface<PPB_Var_1_1>()) {
	get_interface<PPB_Var_1_1>()->AddRef(var);
	return true;
	} else if (has_interface<PPB_Var_1_0>()) {
	get_interface<PPB_Var_1_0>()->AddRef(var);
	return true;
	}
	return false;
	}

	// This helper function uses the latest available version of Release.
	// Returns true on success, false if no appropriate interface was available.
	bool ReleaseHelper(const PP_Var& var) {
	if (has_interface<PPB_Var_1_2>()) {
	get_interface<PPB_Var_1_2>()->Release(var);
	return true;
	} else if (has_interface<PPB_Var_1_1>()) {
	get_interface<PPB_Var_1_1>()->Release(var);
	return true;
	} else if (has_interface<PPB_Var_1_0>()) {
	get_interface<PPB_Var_1_0>()->Release(var);
	return true;
	}
	return false;
	}

	} // namespace

	Var::Var() {
	memset(&var_, 0, sizeof(var_));
	var_.type = PP_VARTYPE_UNDEFINED;
	is_managed_ = true;
	}

	Var::Var(Null) {
	memset(&var_, 0, sizeof(var_));
	var_.type = PP_VARTYPE_NULL;
	is_managed_ = true;
	}

	Var::Var(bool b) {
	var_.type = PP_VARTYPE_BOOL;
	var_.padding = 0;
	var_.value.as_bool = PP_FromBool(b);
	is_managed_ = true;
	}

	Var::Var(int32_t i) {
	var_.type = PP_VARTYPE_INT32;
	var_.padding = 0;
	var_.value.as_int = i;
	is_managed_ = true;
	}

	Var::Var(double d) {
	var_.type = PP_VARTYPE_DOUBLE;
	var_.padding = 0;
	var_.value.as_double = d;
	is_managed_ = true;
	}

	Var::Var(const char* utf8_str) {
	uint32_t len = utf8_str ? static_cast<uint32_t>(strlen(utf8_str)) : 0;
	var_ = VarFromUtf8Helper(utf8_str, len);
	is_managed_ = true;
	}

	Var::Var(const std::string& utf8_str) {
	var_ = VarFromUtf8Helper(utf8_str.c_str(),
	static_cast<uint32_t>(utf8_str.size()));
	is_managed_ = true;
	}

	Var::Var(const pp::Resource& resource) {
	if (has_interface<PPB_Var_1_2>()) {
	var_ = get_interface<PPB_Var_1_2>()->VarFromResource(
	resource.pp_resource());
	} else {
	PP_NOTREACHED();
	return;
	}
	// Set \|is_managed_\| to true, so \|var_\| will be properly released upon
	// destruction.
	is_managed_ = true;
	}


	Var::Var(const PP_Var& var) {
	var_ = var;
	is_managed_ = true;
	if (NeedsRefcounting(var_)) {
	if (!AddRefHelper(var_))
	var_.type = PP_VARTYPE_NULL;
	}
	}

	Var::Var(const Var& other) {
	var_ = other.var_;
	is_managed_ = true;
	if (NeedsRefcounting(var_)) {
	if (!AddRefHelper(var_))
	var_.type = PP_VARTYPE_NULL;
	}
	}

	Var::~Var() {
	if (NeedsRefcounting(var_) && is_managed_)
	ReleaseHelper(var_);
	}

	Var& Var::operator=(const Var& other) {
	// Early return for self-assignment. Note however, that two distinct vars
	// can refer to the same object, so we still need to be careful about the
	// refcounting below.
	if (this == &other)
	return *this;

	// Be careful to keep the ref alive for cases where we're assigning an
	// object to itself by addrefing the new one before releasing the old one.
	bool old_is_managed = is_managed_;
	is_managed_ = true;
	if (NeedsRefcounting(other.var_)) {
	AddRefHelper(other.var_);
	}
	if (NeedsRefcounting(var_) && old_is_managed)
	ReleaseHelper(var_);

	var_ = other.var_;
	return *this;
	}

	bool Var::operator==(const Var& other) const {
	if (var_.type != other.var_.type)
	return false;
	switch (var_.type) {
	case PP_VARTYPE_UNDEFINED:
	case PP_VARTYPE_NULL:
	return true;
	case PP_VARTYPE_BOOL:
	return AsBool() == other.AsBool();
	case PP_VARTYPE_INT32:
	return AsInt() == other.AsInt();
	case PP_VARTYPE_DOUBLE:
	return AsDouble() == other.AsDouble();
	case PP_VARTYPE_STRING:
	if (var_.value.as_id == other.var_.value.as_id)
	return true;
	return AsString() == other.AsString();
	case PP_VARTYPE_OBJECT:
	case PP_VARTYPE_ARRAY:
	case PP_VARTYPE_ARRAY_BUFFER:
	case PP_VARTYPE_DICTIONARY:
	case PP_VARTYPE_RESOURCE:
	default: // Objects, arrays, dictionaries, resources.
	return var_.value.as_id == other.var_.value.as_id;
	}
	}

	bool Var::AsBool() const {
	if (!is_bool()) {
	PP_NOTREACHED();
	return false;
	}
	return PP_ToBool(var_.value.as_bool);
	}

	int32_t Var::AsInt() const {
	if (is_int())
	return var_.value.as_int;
	if (is_double())
	return static_cast<int>(var_.value.as_double);
	PP_NOTREACHED();
	return 0;
	}

	double Var::AsDouble() const {
	if (is_double())
	return var_.value.as_double;
	if (is_int())
	return static_cast<double>(var_.value.as_int);
	PP_NOTREACHED();
	return 0.0;
	}

	std::string Var::AsString() const {
	if (!is_string()) {
	PP_NOTREACHED();
	return std::string();
	}

	uint32_t len;
	const char* str;
	if (has_interface<PPB_Var_1_2>())
	str = get_interface<PPB_Var_1_2>()->VarToUtf8(var_, &len);
	else if (has_interface<PPB_Var_1_1>())
	str = get_interface<PPB_Var_1_1>()->VarToUtf8(var_, &len);
	else if (has_interface<PPB_Var_1_0>())
	str = get_interface<PPB_Var_1_0>()->VarToUtf8(var_, &len);
	else
	return std::string();
	return std::string(str, len);
	}

	pp::Resource Var::AsResource() const {
	if (!is_resource()) {
	PP_NOTREACHED();
	return pp::Resource();
	}

	if (has_interface<PPB_Var_1_2>()) {
	return pp::Resource(pp::PASS_REF,
	get_interface<PPB_Var_1_2>()->VarToResource(var_));
	} else {
	return pp::Resource();
	}
	}

	std::string Var::DebugString() const {
	char buf[256];
	if (is_undefined()) {
	snprintf(buf, sizeof(buf), "Var(UNDEFINED)");
	} else if (is_null()) {
	snprintf(buf, sizeof(buf), "Var(NULL)");
	} else if (is_bool()) {
	snprintf(buf, sizeof(buf), AsBool() ? "Var(true)" : "Var(false)");
	} else if (is_int()) {
	snprintf(buf, sizeof(buf), "Var(%d)", static_cast<int>(AsInt()));
	} else if (is_double()) {
	snprintf(buf, sizeof(buf), "Var(%f)", AsDouble());
	} else if (is_string()) {
	char format[] = "Var<'%s'>";
	size_t decoration = sizeof(format) - 2; // The %s is removed.
	size_t available = sizeof(buf) - decoration;
	std::string str = AsString();
	if (str.length() > available) {
	str.resize(available - 3); // Reserve space for ellipsis.
	str.append("...");
	}
	snprintf(buf, sizeof(buf), format, str.c_str());
	} else if (is_object()) {
	snprintf(buf, sizeof(buf), "Var(OBJECT)");
	} else if (is_array()) {
	snprintf(buf, sizeof(buf), "Var(ARRAY)");
	} else if (is_dictionary()) {
	snprintf(buf, sizeof(buf), "Var(DICTIONARY)");
	} else if (is_array_buffer()) {
	snprintf(buf, sizeof(buf), "Var(ARRAY_BUFFER)");
	} else if (is_resource()) {
	snprintf(buf, sizeof(buf), "Var(RESOURCE)");
	} else {
	buf[0] = '\0';
	}
	return buf;
	}

	} // namespace pp