[apple/javascriptcore.git] / runtime / CommonSlowPaths.h

/*
 * Copyright (C) 2011, 2012 Apple Inc. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. 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.
 *
 * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE INC. 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. 
 */

#ifndef CommonSlowPaths_h
#define CommonSlowPaths_h

#include "CodeBlock.h"
#include "CodeSpecializationKind.h"
#include "ExceptionHelpers.h"
#include "JSArray.h"

namespace JSC {

// The purpose of this namespace is to include slow paths that are shared
// between the interpreter and baseline JIT. They are written to be agnostic
// with respect to the slow-path calling convention, but they do rely on the
// JS code being executed more-or-less directly from bytecode (so the call
// frame layout is unmodified, making it potentially awkward to use these
// from any optimizing JIT, like the DFG).

namespace CommonSlowPaths {

ALWAYS_INLINE ExecState* arityCheckFor(ExecState* exec, RegisterFile* registerFile, CodeSpecializationKind kind)
{
    JSFunction* callee = jsCast<JSFunction*>(exec->callee());
    ASSERT(!callee->isHostFunction());
    CodeBlock* newCodeBlock = &callee->jsExecutable()->generatedBytecodeFor(kind);
    int argumentCountIncludingThis = exec->argumentCountIncludingThis();

    // This ensures enough space for the worst case scenario of zero arguments passed by the caller.
    if (!registerFile->grow(exec->registers() + newCodeBlock->numParameters() + newCodeBlock->m_numCalleeRegisters))
        return 0;

    ASSERT(argumentCountIncludingThis < newCodeBlock->numParameters());

    // Too few arguments -- copy call frame and arguments, then fill in missing arguments with undefined.
    size_t delta = newCodeBlock->numParameters() - argumentCountIncludingThis;
    Register* src = exec->registers();
    Register* dst = exec->registers() + delta;

    int i;
    int end = -ExecState::offsetFor(argumentCountIncludingThis);
    for (i = -1; i >= end; --i)
        dst[i] = src[i];

    end -= delta;
    for ( ; i >= end; --i)
        dst[i] = jsUndefined();

    ExecState* newExec = ExecState::create(dst);
    ASSERT((void*)newExec <= registerFile->end());
    return newExec;
}

ALWAYS_INLINE bool opInstanceOfSlow(ExecState* exec, JSValue value, JSValue baseVal, JSValue proto)
{
    ASSERT(!value.isCell() || !baseVal.isCell() || !proto.isCell()
           || !value.isObject() || !baseVal.isObject() || !proto.isObject() 
           || !asObject(baseVal)->structure()->typeInfo().implementsDefaultHasInstance());


    // ECMA-262 15.3.5.3:
    // Throw an exception either if baseVal is not an object, or if it does not implement 'HasInstance' (i.e. is a function).
    TypeInfo typeInfo(UnspecifiedType);
    if (!baseVal.isObject() || !(typeInfo = asObject(baseVal)->structure()->typeInfo()).implementsHasInstance()) {
        exec->globalData().exception = createInvalidParamError(exec, "instanceof", baseVal);
        return false;
    }
    ASSERT(typeInfo.type() != UnspecifiedType);

    if (!typeInfo.overridesHasInstance() && !value.isObject())
        return false;

    return asObject(baseVal)->methodTable()->hasInstance(asObject(baseVal), exec, value, proto);
}

inline bool opIn(ExecState* exec, JSValue propName, JSValue baseVal)
{
    if (!baseVal.isObject()) {
        exec->globalData().exception = createInvalidParamError(exec, "in", baseVal);
        return false;
    }

    JSObject* baseObj = asObject(baseVal);

    uint32_t i;
    if (propName.getUInt32(i))
        return baseObj->hasProperty(exec, i);

    Identifier property(exec, propName.toString(exec)->value(exec));
    if (exec->globalData().exception)
        return false;
    return baseObj->hasProperty(exec, property);
}

ALWAYS_INLINE JSValue opResolve(ExecState* exec, Identifier& ident)
{
    ScopeChainNode* scopeChain = exec->scopeChain();

    ScopeChainIterator iter = scopeChain->begin();
    ScopeChainIterator end = scopeChain->end();
    ASSERT(iter != end);
    
    do {
        JSObject* o = iter->get();
        PropertySlot slot(o);
        if (o->getPropertySlot(exec, ident, slot))
            return slot.getValue(exec, ident);
    } while (++iter != end);

    exec->globalData().exception = createUndefinedVariableError(exec, ident);
    return JSValue();
}

ALWAYS_INLINE JSValue opResolveSkip(ExecState* exec, Identifier& ident, int skip)
{
    ScopeChainNode* scopeChain = exec->scopeChain();

    ScopeChainIterator iter = scopeChain->begin();
    ScopeChainIterator end = scopeChain->end();
    ASSERT(iter != end);
    CodeBlock* codeBlock = exec->codeBlock();
    bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain();
    ASSERT(skip || !checkTopLevel);
    if (checkTopLevel && skip--) {
        if (exec->uncheckedR(codeBlock->activationRegister()).jsValue())
            ++iter;
    }
    while (skip--) {
        ++iter;
        ASSERT(iter != end);
    }
    do {
        JSObject* o = iter->get();
        PropertySlot slot(o);
        if (o->getPropertySlot(exec, ident, slot))
            return slot.getValue(exec, ident);
    } while (++iter != end);

    exec->globalData().exception = createUndefinedVariableError(exec, ident);
    return JSValue();
}

ALWAYS_INLINE JSValue opResolveWithBase(ExecState* exec, Identifier& ident, Register& baseSlot)
{
    ScopeChainNode* scopeChain = exec->scopeChain();

    ScopeChainIterator iter = scopeChain->begin();
    ScopeChainIterator end = scopeChain->end();

    // FIXME: add scopeDepthIsZero optimization

    ASSERT(iter != end);

    JSObject* base;
    do {
        base = iter->get();
        PropertySlot slot(base);
        if (base->getPropertySlot(exec, ident, slot)) {
            JSValue result = slot.getValue(exec, ident);
            if (exec->globalData().exception)
                return JSValue();

            baseSlot = JSValue(base);
            return result;
        }
        ++iter;
    } while (iter != end);

    exec->globalData().exception = createUndefinedVariableError(exec, ident);
    return JSValue();
}

ALWAYS_INLINE JSValue opResolveWithThis(ExecState* exec, Identifier& ident, Register& baseSlot)
{
    ScopeChainNode* scopeChain = exec->scopeChain();

    ScopeChainIterator iter = scopeChain->begin();
    ScopeChainIterator end = scopeChain->end();

    // FIXME: add scopeDepthIsZero optimization

    ASSERT(iter != end);

    JSObject* base;
    do {
        base = iter->get();
        ++iter;
        PropertySlot slot(base);
        if (base->getPropertySlot(exec, ident, slot)) {
            JSValue result = slot.getValue(exec, ident);
            if (exec->globalData().exception)
                return JSValue();

            // All entries on the scope chain should be EnvironmentRecords (activations etc),
            // other then 'with' object, which are directly referenced from the scope chain,
            // and the global object. If we hit either an EnvironmentRecord or a global
            // object at the end of the scope chain, this is undefined. If we hit a non-
            // EnvironmentRecord within the scope chain, pass the base as the this value.
            if (iter == end || base->structure()->typeInfo().isEnvironmentRecord())
                baseSlot = jsUndefined();
            else
                baseSlot = JSValue(base);
            return result;
        }
    } while (iter != end);

    exec->globalData().exception = createUndefinedVariableError(exec, ident);
    return JSValue();
}

} } // namespace JSC::CommonSlowPaths

#endif // CommonSlowPaths_h
Commit	Line	Data
6fe7ccc8 A	1	/*
	2	* Copyright (C) 2011, 2012 Apple Inc. All rights reserved.
	3	*
	4	* Redistribution and use in source and binary forms, with or without
	5	* modification, are permitted provided that the following conditions
	6	* are met:
	7	* 1. Redistributions of source code must retain the above copyright
	8	* notice, this list of conditions and the following disclaimer.
	9	* 2. Redistributions in binary form must reproduce the above copyright
	10	* notice, this list of conditions and the following disclaimer in the
	11	* documentation and/or other materials provided with the distribution.
	12	*
	13	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	14	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	15	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	16	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	17	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	18	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	19	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	20	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	21	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	22	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	23	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	24	*/
	25
	26	#ifndef CommonSlowPaths_h
	27	#define CommonSlowPaths_h
	28
	29	#include "CodeBlock.h"
	30	#include "CodeSpecializationKind.h"
	31	#include "ExceptionHelpers.h"
	32	#include "JSArray.h"
	33
	34	namespace JSC {
	35
	36	// The purpose of this namespace is to include slow paths that are shared
	37	// between the interpreter and baseline JIT. They are written to be agnostic
	38	// with respect to the slow-path calling convention, but they do rely on the
	39	// JS code being executed more-or-less directly from bytecode (so the call
	40	// frame layout is unmodified, making it potentially awkward to use these
	41	// from any optimizing JIT, like the DFG).
	42
	43	namespace CommonSlowPaths {
	44
	45	ALWAYS_INLINE ExecState* arityCheckFor(ExecState* exec, RegisterFile* registerFile, CodeSpecializationKind kind)
	46	{
	47	JSFunction* callee = jsCast<JSFunction*>(exec->callee());
	48	ASSERT(!callee->isHostFunction());
	49	CodeBlock* newCodeBlock = &callee->jsExecutable()->generatedBytecodeFor(kind);
	50	int argumentCountIncludingThis = exec->argumentCountIncludingThis();
	51
	52	// This ensures enough space for the worst case scenario of zero arguments passed by the caller.
	53	if (!registerFile->grow(exec->registers() + newCodeBlock->numParameters() + newCodeBlock->m_numCalleeRegisters))
	54	return 0;
	55
	56	ASSERT(argumentCountIncludingThis < newCodeBlock->numParameters());
	57
	58	// Too few arguments -- copy call frame and arguments, then fill in missing arguments with undefined.
	59	size_t delta = newCodeBlock->numParameters() - argumentCountIncludingThis;
	60	Register* src = exec->registers();
	61	Register* dst = exec->registers() + delta;
	62
	63	int i;
	64	int end = -ExecState::offsetFor(argumentCountIncludingThis);
65	for (i = -1; i >= end; --i)
66	dst[i] = src[i];
67
68	end -= delta;
69	for ( ; i >= end; --i)
70	dst[i] = jsUndefined();
71
72	ExecState* newExec = ExecState::create(dst);
73	ASSERT((void*)newExec <= registerFile->end());
74	return newExec;
75	}
76
77	ALWAYS_INLINE bool opInstanceOfSlow(ExecState* exec, JSValue value, JSValue baseVal, JSValue proto)
78	{
79	ASSERT(!value.isCell() \|\| !baseVal.isCell() \|\| !proto.isCell()
80	\|\| !value.isObject() \|\| !baseVal.isObject() \|\| !proto.isObject()
81	\|\| !asObject(baseVal)->structure()->typeInfo().implementsDefaultHasInstance());
82
83
84	// ECMA-262 15.3.5.3:
85	// Throw an exception either if baseVal is not an object, or if it does not implement 'HasInstance' (i.e. is a function).
86	TypeInfo typeInfo(UnspecifiedType);
87	if (!baseVal.isObject() \|\| !(typeInfo = asObject(baseVal)->structure()->typeInfo()).implementsHasInstance()) {
88	exec->globalData().exception = createInvalidParamError(exec, "instanceof", baseVal);
89	return false;
90	}
91	ASSERT(typeInfo.type() != UnspecifiedType);
92
93	if (!typeInfo.overridesHasInstance() && !value.isObject())
94	return false;
95
96	return asObject(baseVal)->methodTable()->hasInstance(asObject(baseVal), exec, value, proto);
97	}
98
99	inline bool opIn(ExecState* exec, JSValue propName, JSValue baseVal)
100	{
101	if (!baseVal.isObject()) {
102	exec->globalData().exception = createInvalidParamError(exec, "in", baseVal);
103	return false;
104	}
105
106	JSObject* baseObj = asObject(baseVal);
107
108	uint32_t i;
109	if (propName.getUInt32(i))
110	return baseObj->hasProperty(exec, i);
111
112	Identifier property(exec, propName.toString(exec)->value(exec));
113	if (exec->globalData().exception)
114	return false;
115	return baseObj->hasProperty(exec, property);
116	}
117
118	ALWAYS_INLINE JSValue opResolve(ExecState* exec, Identifier& ident)
119	{
120	ScopeChainNode* scopeChain = exec->scopeChain();
121
122	ScopeChainIterator iter = scopeChain->begin();
123	ScopeChainIterator end = scopeChain->end();
124	ASSERT(iter != end);
125
126	do {
127	JSObject* o = iter->get();
128	PropertySlot slot(o);
129	if (o->getPropertySlot(exec, ident, slot))
130	return slot.getValue(exec, ident);
131	} while (++iter != end);
132
133	exec->globalData().exception = createUndefinedVariableError(exec, ident);
134	return JSValue();
135	}
136
137	ALWAYS_INLINE JSValue opResolveSkip(ExecState* exec, Identifier& ident, int skip)
138	{
139	ScopeChainNode* scopeChain = exec->scopeChain();
140
141	ScopeChainIterator iter = scopeChain->begin();
142	ScopeChainIterator end = scopeChain->end();
143	ASSERT(iter != end);
144	CodeBlock* codeBlock = exec->codeBlock();
145	bool checkTopLevel = codeBlock->codeType() == FunctionCode && codeBlock->needsFullScopeChain();
146	ASSERT(skip \|\| !checkTopLevel);
147	if (checkTopLevel && skip--) {
148	if (exec->uncheckedR(codeBlock->activationRegister()).jsValue())
149	++iter;
150	}
151	while (skip--) {
152	++iter;
153	ASSERT(iter != end);
154	}
155	do {
156	JSObject* o = iter->get();
157	PropertySlot slot(o);
158	if (o->getPropertySlot(exec, ident, slot))
159	return slot.getValue(exec, ident);
160	} while (++iter != end);
161
162	exec->globalData().exception = createUndefinedVariableError(exec, ident);
163	return JSValue();
164	}
165
166	ALWAYS_INLINE JSValue opResolveWithBase(ExecState* exec, Identifier& ident, Register& baseSlot)
167	{
168	ScopeChainNode* scopeChain = exec->scopeChain();
169
170	ScopeChainIterator iter = scopeChain->begin();
171	ScopeChainIterator end = scopeChain->end();
172
173	// FIXME: add scopeDepthIsZero optimization
174
175	ASSERT(iter != end);
176
177	JSObject* base;
178	do {
179	base = iter->get();
180	PropertySlot slot(base);
181	if (base->getPropertySlot(exec, ident, slot)) {
182	JSValue result = slot.getValue(exec, ident);
183	if (exec->globalData().exception)
184	return JSValue();
185
186	baseSlot = JSValue(base);
187	return result;
188	}
189	++iter;
190	} while (iter != end);
191
192	exec->globalData().exception = createUndefinedVariableError(exec, ident);
193	return JSValue();
194	}
195
196	ALWAYS_INLINE JSValue opResolveWithThis(ExecState* exec, Identifier& ident, Register& baseSlot)
197	{
198	ScopeChainNode* scopeChain = exec->scopeChain();
199
200	ScopeChainIterator iter = scopeChain->begin();
201	ScopeChainIterator end = scopeChain->end();
202
203	// FIXME: add scopeDepthIsZero optimization
204
205	ASSERT(iter != end);
206
207	JSObject* base;
208	do {
209	base = iter->get();
210	++iter;
211	PropertySlot slot(base);
212	if (base->getPropertySlot(exec, ident, slot)) {
213	JSValue result = slot.getValue(exec, ident);
214	if (exec->globalData().exception)
215	return JSValue();
216
217	// All entries on the scope chain should be EnvironmentRecords (activations etc),
218	// other then 'with' object, which are directly referenced from the scope chain,
219	// and the global object. If we hit either an EnvironmentRecord or a global
220	// object at the end of the scope chain, this is undefined. If we hit a non-
221	// EnvironmentRecord within the scope chain, pass the base as the this value.
222	if (iter == end \|\| base->structure()->typeInfo().isEnvironmentRecord())
223	baseSlot = jsUndefined();
224	else
225	baseSlot = JSValue(base);
226	return result;
227	}
228	} while (iter != end);
229
230	exec->globalData().exception = createUndefinedVariableError(exec, ident);
231	return JSValue();
232	}
233
234	} } // namespace JSC::CommonSlowPaths
235
236	#endif // CommonSlowPaths_h
237