NAME
compute++ - ComputeCpp SYCL compiler based on clang 6.0
COMMAND
compute++ (-sycl | -sycl-device-only | -sycl-driver) \[-sycl-target <target>\] \[options\] <input file>)
DESCRIPTION
compute++ is the integrated SYCL driver and compiler for ComputeCpp.
When using -sycl
or -sycl-device-only
flag, compute++ takes in a C++ source file,
compiles any SYCL kernels it finds (and any functions called from kernels)
and outputs the ComputeCpp integration header.
The integration header is a C++ header file, generated by compute++,
which contains the compiled kernel in the binary format,
along with all the required information for the runtime to manage the kernels.
Note that -sycl
and -sycl-device-only
are aliases, there is no difference between them.
When using -sycl-driver
flag, compute++ act as an integrated driver combining the device and host compilation step.
It takes in a C++ source file, compiles any SYCL kernels it finds
(and any functions called from kernels)
and outputs the ComputeCpp integration header as a temporary file.
In a second compilation step, it compiles the combined C++ source file
and integration header to produce an object file or executable.
The compiler is based on Clang/LLVM and can support C++11 and partially C++14 with view on supporting increasingly more C++ standards.
If none of -sycl
, -sycl-device-only
and -sycl-driver
is used,
compute++ acts as the normal clang compiler so it can be used as the host compiler too.
Refer to the clang/llvm documentation for general compilation information.
Note that -sycl-host-only
suppresses the effect of -sycl
, -sycl-device-only
,
and -sycl-driver
when provided after those flags.
Note: the device compiler needs to know on which host the kernels will be invoked from.
The compiler requires this so it can use the same type definition as the host (size and alignment)
and layout structures correctly.
If no -target
is given to the device compiler, it will default to a pre-set target.
The pre-set target can be queried by running clang -v
.
Setting the correct target is particularly important in a cross-compilation setting.
EXAMPLES
The basic invocation of compute++ to produce an integration header:
compute++ device compiler invocation
compute++ -sycl -c
This constitutes the bare minimum to produce the integration header from the SYCL kernels in a C++ source file.
The option -sycl
enables the compute++ SYCL specific code paths
to extract and compile its kernels to SPIR and emit the integration header.
The -sycl
option also makes the compiler assume that the input is a C++11 source file.
The other option -c
is a standard clang option to only perform the compilation step (no linking).
The basic invocation of compute++ to produce a host object file containing the device kernels:
compute++ integrated driver invocation
compute++ -sycl-driver -c
This constitutes the bare minimum to produce an object containing host code and device kernels the SYCL kernels in a C++ source file.
The option -sycl-driver
schedules calls to the compiler
to first run with the -sycl
flag to extract kernels and emit the integration header
and then run without the -sycl
flag and automatically include the integration header.
The -sycl-driver
option also makes the compiler assume that the input is a C++11 source file.
INTEGRATION HEADER
By using -sycl
, compute++ will create an integration header.
By convention, the integration header will have the extension .sycl
.
The following invocation:
compute++ -sycl -c myFile.cpp
will create the integration header as myFile.sycl in the same folder as myFile.cpp.
You can have more control over the output file by using -o
or -sycl-ih
:
compute++ -sycl -c myFile.cpp -o integration.hpp.sycl
compute++ -sycl -c myFile.cpp -sycl-ih integration.hpp.sycl
compute++ will then create integration.hpp.sycl instead of myFile.sycl.
USING COMPUTE++ IN A CROSS-COMPILATION SETTING
The production of the integration header when the final application is cross-compiled remains similar to a standard build. However it is important to set the host target for the device compiler so the ABI can be set correctly.
To set the host target, compute++ relies on the standard clang flag -target
and can be used in conjunction with -sycl
or -sycl-driver
.
If used with -sycl-driver
, the host compilation step will produce an object file for the target given with the -target
flag.
If no -sycl-target
is specified, the -target
flag will influence the default target.
See the description of -sycl-target
for more details on the default target and its selection.
The following invocation:
compute++ -sycl -target aarch64-linux-gnu -c myFile.cpp -sycl-ih integration.hpp.sycl
will create the integration header and device kernel compiled to be invoked from an aarch64 chip.
Note on host and device ABI
ComputeCpp has a check mechanism to ensure the kernel functor as viewed by the host and the device compiler is consistent. If not, a static assert is triggered with the following message:
The kernel argument memory layout of <compiler>
is not compatible with the device compiler.
Try to use -sycl-driver instead.
In such cases, using the integrated driver should solve the problem.
SYCL allows to write sections of code that will only be visible by either the device compiler (compute++
) or the host compiler by using the macro __SYCL_DEVICE_ONLY__
.
It is however undefined behavior if the functor kernel definition is changed using this macro and this may also trigger this static assert.
OPTIONS
-no-serial-memop
Deactivate memcpy/memset intrinsics replacement by serial functions.
To work around some driver issues, memcpy and memset are replaced by serial functions (this can impact performances). If the used driver is not impacted by such issue, this option prevents this replacement and can have a positive impact on performance.
-sycl-device-only
-sycl
Enables the SYCL extension to C++.
This enables the SYCL kernel extraction, diagnostics and integration header production. The flags will also force the compiler to assume the input file is a C++11 file.
If the clang option -std
is also used, its argument must be a C++ standard that covers C++11. If the language standard provided to -std
is incompatible with SYCL, the language standard will be overridden to C++11.
-sycl-driver
Enables the integrated SYCL driver.
This enable the compiler to first run in device mode (with the -sycl
flag)
to produce the integration header and then run in host mode with the integration header automatically included.
The flags will also force the compiler to assume the input file is a C++11 file.
If the clang option -std
is also used, its argument must be a C++ standard that covers C++11. If the language standard provided to -std
is incompatible with SYCL, the language standard will be overridden to C++11.
-sycl-host-only
Only perform the host compilation step, equivalent to omitting any of the -sycl-device-only
, -sycl
and -sycl-driver
.
Note: Only the last of -sycl-device-only
, -sycl
, -sycl-driver
, -sycl-host-only
is considered.
The flag -sycl-host-only
is useful to suppress the action of the other flags.
-sycl-compress-name
Generate compressed SYCL kernel names.
This option will rename SYCL kernel functors to shorter names for use with OpenCL device drivers. You should use this option if you get an error from an OpenCL device driver when using heavily-templated kernels. There is a risk that using this option will create name collisions in kernels when using heavily templated code, so this option is not enabled by default. However, some OpenCL drivers, such as AMD®’s GPU drivers, will require this option when kernel names have a large number of template parameters.
-sycl-keep-unused-args
Instructs the compiler to keep unused kernel arguments.
By default, all unused SYCL kernel arguments are removed to speed up kernel enqueue at runtime. This flag disables this behavior.
-sycl-keep-attr=<value>
Don’t allow the compiler to remove the specified attribute.
To strictly follow SPIR 1.2 specifications, some attributes used internally are removed before the module emission. To prevent the suppression, the attribute name to keep can be specified.
Current value supported:
noduplicate
-sycl-target <target>
Specify the target of the device compilation step.
Valid values are:
spir: SPIR 32-bits target
spir64: SPIR 64-bits target
spirv: SPIR-V 32-bits target
spirv64: SPIR-V 64-bits target
ptx64: PTX 64-bits target (experimental)
custom-spir64: Custom target using a custom offline compilation tool consuming 64-bit SPIR, needs "--sycl-custom-tool" to be specified (Professional Edition only)
custom-spirv32: Custom target using a custom offline compilation tool consuming 32-bit SPIR-V, needs "--sycl-custom-tool" to be specified (Professional Edition only)
custom-spirv64: Custom target using a custom offline compilation tool consuming 64-bit SPIR-V, needs "--sycl-custom-tool" to be specified (Professional Edition only)
If the option is omitted, the compiler will default to spir if the host target is a 32-bits architecture and spir64 if the host target is a 64-bits architecture.
Note:
-
Option
-sycl-spir32
should now be replaced by-sycl-target spir
-
Option
-sycl-spir64
should now be replaced by-sycl-target spir64
--sycl-custom-tool=<path>
Path to a custom tool to use as the offline compilation back-end. Needs to be specified when using one of the "custom" device compilation targets for offline compilation.
-sycl-custom-args <value>
Arguments to pass to the custom tool being used as the offline compilation back-end. Arguments provided in quotes will be unquoted and passed on as separate arguments ("a b" will be passed as two arguments while " 'a b' " will be passed as one argument).
Can be specified when using one of the "custom" device compilation targets for offline compilation.
-sycl-custom-command-line <value>
Command line arguments to use for the offline compiler binary.
Replaces -sycl-custom-args
as it offers more flexibility.
The following placeholders are replaced by their appropriate values:
{input}
, {output}
, {input_dirname}
, {input_basename}
, {output_dirname}
, {output_basename}
and {pathsep}
-sycl-custom-output-file-suffix <value>
Adds suffix to name of output file from the offline compiler.
Allows support for offline compilers that add a suffix automatically, such as ocloc
.
-sycl-ih <path>
SYCL integration header file
If no value is specified, the name will be inferred using the output file if specified using -o
or the input file.
Note that this option cannot be used if multiple input files are processed.
-fsycl-ih-last
Force the driver to include the integration header after the main source file.
Note that this flag has an effect only when used with -sycl-driver
.
-fsycl-split-modules=<N>
This option lets the compiler generate multiple modules and puts a maximum of <N>
kernels into each module. (experimental)
This may improve compilation times when only a small number of kernels are used at run-time and not every module has to be compiled. By default only one module for all kernels will be produced.
-sycl-ocl-target-builtins-path <path>
Specify a custom path to an OpenCL builtin implementation for the target
By default this flag will be automatically set by the Clang driver when targeting PTX. If you provide your own path it will overwrite the default. The default path is to a binary file containing the implementation of several OpenCL builtins. This option is only used for PTX targets. It will be ignored for any other target.
-sycl-print-stats
Print performance statistics for each SYCL kernel extracted by different analyses (Professional Edition only)
-fno-sycl-address-space
-fsycl-address-space
The flag -fno-sycl-address-space
prevents the exposure of address spaces in SYCL device compilation mode (experimental).
This forces the compiler to prevent the emission of address space information in the final module.
The opposite -fsycl-address-space
allows exposure of address spaces (default behavior).
If both flags are present, only the last provided has an effect.
-Wsycl-pedantic, -Werror-sycl-pedantic
Respectively warn or error when using ComputeCpp supported extensions to the SYCL specification. By default no warning is raised in those cases. Enabling the sycl-pedantic
warning group will show warnings/errors for when these extensions are used.
-Wsycl-known-virtual, -Werror-sycl-known-virtual
Respectively warn or error when calling a member function marked as virtual.
Calling virtual member functions that do not require dynamic dispatch is a ComputeCpp extension. If this flag is set, uses of this extension will emit a warning or error. This is implicitly enabled when -Wsycl-pedantic
is enabled.
Old Options
The following options were removed in a previous release, they are no longer recognized
–sycl-no-diags
This option had no effect for several releases.
-sycl-spir32
This option used to force the compiler to output 32-bit SPIR or SPIR-V bitcode.
The target is now specified using the -sycl-target <target>
option.
-sycl-spir64
This option used to force the compiler to output 64-bit SPIR or SPIR-V bitcode.
The target is now specified using the -sycl-target <target>
option.
Clang standard options
As the compiler is based on clang 6, some of the standard clang 6 options are available. This includes:
-
Warning and error formatting flags
-
Optimisation flags
For more information about clang usage, refer to the clang 6.0 manual
Compute++-specific Diagnostics
This section describes SYCL specific diagnostics. Compute++ errors, warnings and remarks are in the form of:
[Computeccp:CCxxxx] Error message
Where "xxxx" is an error code index.
[Computecpp:CC0001]
a SYCL kernel must be named with a class, struct, enum or union type
[Computecpp:CC0002]
cannot name a SYCL kernel with <type>
- class, struct, enum or union expected
[Computecpp:CC0003]
an unnamed type is an invalid template argument for classes used to name SYCL kernels.
Valid SYCL kernel names must be a forward declarable class, struct, enum or union type.
The following examples are valid SYCL kernel names:
class ClassKernelName;
struct MyStruct;
enum class MyEnum : int;
The following types are invalid SYCL kernel names:
unsigned // not a class, struct, enum or union type
enum MyCpp98Enum {/* Definition */}; // not forward declarable
[Computecpp:CC0004]
a SYCL kernel with the name <type>
(alias <type>
) already exists
SYCL kernel names must be unique. Therefore, the same type cannot be used twice to name 2 kernels. In such cases, compute++ will emit a note to provide the location of the original name.
class MyName;
[...]
h.parallel_for<class MyName>(...);
h.parallel_for<class MyName>(...); // CC0004: the name is used twice
[Computecpp:CC0005]
cannot name a SYCL kernel with nested class, struct, enum or union <type>
SYCL kernel names cannot be a nested class as it is not forward declarable.
struct MyClass {
struct Nested {};
};
h.parallel_for<MyClass::Nested>(...); // CC0005
[Computecpp:CC0006]
<C++ construct>
is not allowed within SYCL device code
C++ constructions that cannot be converted into a valid OpenCL code are invalid in SYCL. These include:
-
Exceptions (try / catch expressions)
-
Accessing non-const global variables inside device code
-
Function pointers
-
RTTI (dynamic_cast, typeid)
-
Dynamic memory handling: new, delete
- Note: placement new is allowed
[Computecpp:CC0007]
cannot capture <expr>
in a SYCL kernel
[Computecpp:CC0008]
a variable of type <type>
cannot be captured by a SYCL kernel, because it is <reason>
A SYCL kernel cannot capture:
-
By reference
-
The "this" pointer
-
Raw pointers
For instance
class example;
[...]
int *ptr = new int(10); // Initialise a pointer
cgh.single_task<class example>([=]() {
foo(ptr); // Illegal to use that pointer within kernel
});
The above code would give the error:
error: a variable of type 'int *' cannot be captured by a SYCL kernel, because it is a pointer type
[Computecpp:CC0009]
cannot capture object instance of class <class name>
containing field <field name>
of type <type>
in a SYCL kernel
[Computecpp:CC0010]
cannot capture object instance of class <class name>
containing field <field name>
of type <type>
in a SYCL kernel (makes class <class name>
non-standard layout)
[Computecpp:CC0011]
cannot capture object <variable>
of type <type>
in a SYCL kernel, because <reason>
[Computecpp:CC0020]
SYCL kernel parameter <param>
of type <type>
is invalid: <reason>
A SYCL kernel cannot capture:
-
Any objects containing raw pointers
-
Any objects that do not have a C++ standard layout, including:
-
Objects with private AND public fields (either private or public is OK but not both)
-
Containing a non-static field of reference type
-
Any objects that contain virtual methods
-
For instance
class example;
struct FooClass
{
FooClass(int i): m_pMember(new int(i)) {}
int *m_pMember;
};
FooClass instance {1}; // Initialize the instance
cgh.single_task<class example>([=]() {
foo(instance.m_pMember); // Illegal to use that pointer within kernel
});
The above code would give the error:
error: can not capture object instance of type 'struct FooClass' in a SYCL kernel, because it contains a field with a pointer type
[Computecpp:CC0012]
class <name>
cannot be a parameter to a SYCL kernel, because <reason>
[Computecpp:CC0013]
<type>
is an invalid argument type for a SYCL kernel, because it is <reason>
One or more SYCL kernel parameter restrictions have been violated, which triggered this error.
This includes the following:
-
"it is a non standard-layout type": To pass as a kernel parameter an object, it needs to be standard-layout.
-
"it contains virtual methods": Objects of a class that contains virtual methods cannot be supported as they are not standard-layout.
-
"it contains a field with a pointer type": Host raw pointers cannot be used on device with OpenCL 1.2. To pass a pointer to the device, SYCL buffers and accessors must be used instead.
[Computecpp:CC0014]
SYCL kernel must return void
SYCL kernel functors or lambdas cannot return a value.
[Computecpp:CC0015]
recursion is not allowed in SYCL functions
[Computecpp:CC0016]
recursion is not allowed in SYCL functions, but a call graph cycle was detected starting in function <function name>
SYCL restrictions disallow the use of recursive functions as OpenCL disallows their use.
CC00016 is a recursion caused by a succession of calls that forms in the end a recursive loop.
int recurse(int i) { // CC0015
return i < 0 ? 0 : recurse(i - 1);
}
int funcA(int);
int funcB(int i) {
return funcA(i - 1) + i;
}
int funcA(int i) { // CC0016
return i < 0 ? 0 : funcB(i - 1);
}
[Computecpp:CC0023]
class <name>
is not standard layout, because <reason>
This error will accompany [Computecpp:CC0011]
cannot capture object <variable>
of type <type>
in a SYCL kernel,
because <reason>
and will be thrown on the object definition directly.
The reasons are the same as in that error.
-
Any objects containing raw pointers
-
Any objects that do not have a standard layout, including:
-
Objects with private AND public fields (either private or public is OK but not both)
-
Containing a non-static field of reference type
-
Any objects that contain virtual methods
-
[Computecpp:CC0027]
Some memcpy/memset intrinsics added by the llvm optimizer were replaced by serial functions. This is a workaround for OpenCL drivers that do not support those intrinsics. This may impact performance, consider using -no-serial-memop.
On certain OpenCL drivers we have found that certain LLVM intrinsic functions are not supported so we replace them with our own code, which will work on all drivers. However, this could stop a vendor compiler which does support these intrinsics from performing certain optimisations so we leave the option -no-serial-memop available to instruct compute++ not to remove it. Generally this remark can be ignored as the code is still valid, but there may be a performance impact.
[Computecpp:CC0028]
OpenCL requires the format string of printf to be a constant string.
This warning will throw if you attempt to pass a string non-literal as the format string of the printf function. Code like below should produce this warning.
const char * str = "somestring"
printf(str);
The preferred method of printing from a SYCL kernel is to pass a stream object into the kernel.
class example;
[...]
myQueue.submit([&](handler& handle)
stream os(1024, 80, handle);
cgh.single_task<class example>([=]() {
os << "somestring" << endl;
});
});
[Computecpp:CC0029]
The noduplicate
attribute was removed from some functions in order to guarantee conformance with SPIR 1.2.
To keep that attribute the -sycl-keep-attr=<noduplicate>
command-line option can be used.
This remark will be thrown whenever the compiler removes the attribute noduplicate
from a function or function call.
This is not a warning or an error, it is a remark as this is expected behavior from the compiler and the code remains valid.
[Computecpp:CC0030]
sycl requires at least C++11, force language standard to C++11
The SYCL specification is defined to support C++11 features. Therefore, a SYCL program requires a language standard that includes the C++11 feature set.
The language standard provided to the -std
command-line option is incompatible with SYCL
and the language standard has been forced to C++11.
[Computecpp:CC0031]
<string>
is not a valid input to spir-keep-attr. Attribute noduplicate
is the only supported argument
The value <value>
given to -sycl-keep-attr
is invalid. Currently, only noduplicate is a supported attribute. See -sycl-keep-attr
help.
[Computecpp:CC0032]
Variadic functions cannot be used in SYCL device code
SYCL device functions cannot call C-style variadic functions.
Calls like below are not allowed on device.
class example;
void variadic(int, ...);
[...]
myQueue.submit([&](handler& handle)
cgh.single_task<class example>([=]() {
variadic(2, 42., "str");
});
});
[Computecpp:CC0033] (deprecated)
--sycl-no-diags is deprecated and has no effect.
The flag --sycl-no-diags
is now deprecated and the use of this flag does not have any effect any more.
[Computecpp:CC0034]
Function <name>
is undefined but referenced on the device and the associated kernels may fail to build or execute at run time
You will see this warning if an undefined function which does not match one of the known OpenCL builtin functions has been referenced in device code. If the function cannot be resolved by the OpenCL implementation, the kernel is unlikely to compile.
[Computecpp:CC0035]
Intrinsic <intrinsic_name>
has been generated in function <function_name>
which is illegal in SPIR and may result in a compilation failure
The SPIR spec only allows for memset and memcpy intrinsics to be used, anything else is technically illegal and could cause issues with the OpenCL implementation. This warning will tell you if an illegal intrinsic has been generated.
[Computecpp:CC0036]
OpenCL extension cl_khr_fp16 should be enabled before using type half
This warning will appear if cl::sycl::half
(alias to __fp16
) is used in code before the OpenCL extension cl_khr_fp16
is enabled. This warning or lack of does not say anything about whether or not the underlying OpenCL implementation supports half. You must check this manually using the runtime device class "has_extension
" method.
[Computecpp:CC0037]
Variable length arrays are not supported in SYCL kernels.
Variable length arrays (VLA) are disallowed by OpenCL v1.2 s6.9.d, thus cannot be used in a SYCL kernel.
Note: This is a C99 features but some compilers provide extensions to support it in C++
void foo(unsigned n) {
int vla[n]; // illegal if called from a kernel
}
[Computecpp:CC0039]
Kernel <SYCL kernel name>
: conflicting values for attribute <OpenCL attribute name>
Attribute <OpenCL attribute name>
values inherited from <Function name>
Registered values <OpenCL attribute values>
OpenCL attributes vec_type_hint
, work_group_size_hint
and reqd_work_group_size
are allowed to be used in SYCL.
In SYCL, those attributes are applied to functions (instead of kernel function in OpenCL)
and the compiler infers from the function calls which OpenCL attributes should be applied to the kernel.
If a function A and a function B both use the same attribute, then they must use the same values.
If they do not agree on those values, then the compiler reports an error pointing out the affected kernel and the functions causing the issue.
class Ker;
__attribute__((reqd_work_group_size(64, 64, 1)))
void A() {}
__attribute__((reqd_work_group_size(64, 1, 1)))
void B() {}
[...]
myQueue.submit([&](handler& handle)
cgh.single_task<class Ker>([=]() {
A();
B();
});
});
The example above will generate the following diagnostic
error: [Computecpp:CC0039]: Kernel Ker: conflicting values for attribute reqd_work_group_size
note: [Computecpp:CC0039]: Attribute reqd_work_group_size
values inherited from A
note: [Computecpp:CC0039]: Registered values 'i32 64, i32 64, i32 1'
note: [Computecpp:CC0039]: Attribute reqd_work_group_size
values inherited from B
note: [Computecpp:CC0039]: Registered values 'i32 64, i32 1, i32 1'
[Computecpp:CC0040]
Accessor appears as member of union used as a kernel argument - associated kernel may not run correctly
Using unions that contain accessor fields in kernel argument is discouraged and has an undefined behavior.
class Ker;
[...]
myQueue.submit([&](handler& handle)
union {
accessor<int, 1, access::mode::read_write, access::target::global_buffer> Acc;
int IntField;
} Arg;
cgh.single_task<class Ker>([=]() {
Arg.IntField; // CC0040
});
});
[Computecpp:CC0042]
Invalid SYCL target <target>
The value given to -sycl-target
is not a valid device targets.
[Computecpp:CC0043]
Community Edition releases do not support multiple device targets
Community edition releases are restricted to one device target per kernel.
[Computecpp:CC0047]
'-sycl-spir32' is deprecated, use '-sycl-target spir' instead '-sycl-spir64' is deprecated, use '-sycl-target spir64' instead
Options -sycl-spir32 and -sycl-spir64 are deprecated and may be removed in future releases. They both are now aliases to "-sycl-target spir" and "-sycl-target spir64" and they should be used directly.
[Computecpp:CC0047]
'-sycl-spir32' is deprecated, use '-sycl-target spir' instead '-sycl-spir64' is deprecated, use '-sycl-target spir64' instead
Options -sycl-spir32 and -sycl-spir64 are deprecated and may be removed in future releases. They both are now aliases to "-sycl-target spir" and "-sycl-target spir64" and they should be used directly.
[Computecpp:CC0048]
Kernel name <x>
is a local type - consider forward declaring the type inside of an accessible namespace
According to the SYCL specification, kernel name types must be accessible from the global namespace. If a type is locally declared (e. g. in a function), it cannot be accessed from outside that function.
myQueue.submit(\[&\](handler& handle)
cgh.single\_task<class Ker>(\[=\]() {}); // CC0048: Ker is a local type
});
A possible solution is to forward declare the type to make it non-local
class Ker;
[...]
myQueue.submit(\[&\](handler& handle)
cgh.single\_task<class Ker>(\[=\]() {}); // CC0048: Ker is a local type
});
[Computecpp:CC0049]
Processor <proc1>
cannot be specified for the <target>
SYCL target.
Please use the default (<proc2>
) or a later processor.
The specified processor with -msyclarch
is not usable for the given target.
[Computecpp:CC0052]
During compilation of the current function for the target device, a write to constant memory was detected.
void f(int &i) { i = 0; } // CC0052 triggered by assignment to int in constant memory
[ ... ]
myQueue.submit([&](handler &handle) {
auto acc = buffer.get_access<access::mode::write, access::target::constant_buffer>(handle);
handle.single_task<class Ker>(([=]() { f(acc[0]); }));
});
[Computecpp:CC0056]
Custom target specified but the tool to use not provided. Provide the tool using --sycl-custom-tool.
A SYCL target for offline compilation using a custom tool was specified but the tool to use not provided.
[Computecpp:CC0057]
Community Edition releases do not support offline compilation
A SYCL target for offline compilation was specified but Community Edition releases do not support this feature.
[Computecpp:CC0058]
This error is no longer emitted by ComputeCPP.
In previous versions, split modules (-fsycl-split-modules
) were incompatible with some features such as offline compilation.
[Computecpp:CC0059]
Community Edition releases do not support printing performance statistics for SYCL kernels using -sycl-print-stats
.
[Computecpp:CC0061]
Community Edition releases do not support dumping kernel information using -sycl-kernel-info
.
[Computecpp:CC0062]
An IO error was encountered when opening or writing to the output file specified by -sycl-kernel-info
.
[Computecpp:CC0060]
The SYCL specification requires that virtual functions not be supported, however ComputeCpp supports this in cases where dynamic dispatch does not occur. This warning is raised when -Wsycl-pedantic
or -Wsycl-known-virtual
is set.
[Computecpp:CC0063]
The SYCL bundler tool encountered an error while trying to read a file.
[Computecpp:CC0064]
The SYCL bundler tool encountered an error while trying to parse a module pack.
[Computecpp:CC0065]
Community Edition releases do not support bundling multiple binaries.
The bundler was given multiple bundle sources on the command line, and the release is a Community Edition one.
Compute++ Internal Diagnostics
The following diagnostics are internal. If the ComputeCpp package is correctly installed, please file a bug report.
[Computecpp:CC0017]
ignored invalid use of SYCL kernel attribute
[Computecpp:CC0018]
template specialization of a SYCL kernel is not a SYCL kernel without the proper attributes
[Computecpp:CC0019]
`%0' is invalid for a SYCL kernel and was ignored
[Computecpp:CC0021]
SYCL kernels can only have one functor parameter:
parameter <param>
of type <type>
cannot be one, because parameter <param>
of type <type>
already is
[Computecpp:CC0022] (deprecated)
a SYCL kernel cannot also be an OpenCL kernel
[Computecpp:CC0024]
Missing serial function equivalent for intrinsic <name>
(expected prototype <name>
for serial function)
[Computecpp:CC0025]
Serial function <name>
has no body (equivalent for intrinsic <name>
)
[Computecpp:CC0026]
Serial function <name>
has an incorrect signature (equivalent for intrinsic <name>
)
[Computecpp:CC0038]
Invalid SYCL attribute for function <reason>
Invalid OpenCL attribute for function <reason>
Some internal metadata are not correctly formed.
[Computecpp:CC0041]
Redefinition of binary metadata for target <target>
(<arch-size>
bits)
[Computecpp:CC0044]
Redefinition of kernel <kernel name>
metadata
[Computecpp:CC0045]
Error reading SYCL metadata file: <file>
[Computecpp:CC0046]
Expect the same number of binary information placeholders (got <i>
) and kernel input files (got <j>
)
AMD is a registered trademark of Advanced Micro Devices, Inc. Intel is a trademark of Intel Corporation or its subsidiaries in the U.S. and/or other countries. NVIDIA and CUDA are registered trademarks of NVIDIA Corporation