julia 1.13.0 DEVC program that initializes Julia and calls some Julia code: #includeJULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() using the (internal) function Base.tls_world_age julia> function f end f (generic function with 0 methods) julia> begin @show (Int(Base.get_world_counter()), Int(Base.tls_world_age())) Core.eval(@__MODULE__ 0 码力 | 2058 页 | 7.45 MB | 3 月前3- Julia 1.12.0 RC1C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() using the (internal) function Base.tls_world_age julia> function f end f (generic function with 0 methods) julia> begin @show (Int(Base.get_world_counter()), Int(Base.tls_world_age())) Core.eval(@__MODULE__ 0 码力 | 2057 页 | 7.44 MB | 3 月前3 - Julia 1.12.0 Beta4C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() using the (internal) function Base.tls_world_age julia> function f end f (generic function with 0 methods) julia> begin @show (Int(Base.get_world_counter()), Int(Base.tls_world_age())) Core.eval(@__MODULE__ 0 码力 | 2057 页 | 7.44 MB | 3 月前3 - Julia 1.12.0 Beta3C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() using the (internal) function Base.tls_world_age julia> function f end f (generic function with 0 methods) julia> begin @show (Int(Base.get_world_counter()), Int(Base.tls_world_age())) Core.eval(@__MODULE__ 0 码力 | 2057 页 | 7.44 MB | 3 月前3 - julia 1.10.10C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. int main(int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 1692 页 | 6.34 MB | 3 月前3 - Julia 1.10.9C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. int main(int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 1692 页 | 6.34 MB | 3 月前3 - Julia 1.11.4C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 2007 页 | 6.73 MB | 3 月前3 - Julia 1.11.5 DocumentationC program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 2007 页 | 6.73 MB | 3 月前3 - Julia 1.11.6 Release NotesC program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 2007 页 | 6.73 MB | 3 月前3 - julia 1.12.0 beta1C program that initializes Julia and calls some Julia code: #include
JULIA_DEFINE_FAST_TLS // only define this once, in an executable (not in a shared library) if you want fast code. �→ int the Julia C API from a thread started by Julia itself: #include JULIA_DEFINE_FAST_TLS double c_func(int i) { printf("[C %08x] i = %d\n", pthread_self(), i); // Call the Julia sqrt() PEM-encoded certificate authority roots. By default, on systems like Windows and macOS where the built-in TLS engines know how to verify hosts using the system's built-in certificate verification mechanism, this 0 码力 | 2047 页 | 7.41 MB | 3 月前3
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