On Sat, Aug 25, 2018 at 10:35:23AM +0100, Chris Wilson wrote: > Quoting Lucas De Marchi (2018-08-25 00:56:46) > > diff --git a/intel/intel_chipset.h b/intel/intel_chipset.h > > index 4a34b7be..8a0e3e76 100644 > > --- a/intel/intel_chipset.h > > +++ b/intel/intel_chipset.h > > @@ -568,6 +568,26 @@ > > > > #define IS_GEN11(devid) (IS_ICELAKE_11(devid)) > > > > +/* New platforms use kernel pci ids */ > > +#include "i915_pciids.h" > > + > > +struct pci_device_id { > > Don't call it pci_device_id, depending on caller that name may already > be taken by libpciaccess. > > > + uint32_t unused0, device; > > + uint32_t unused1, unused2; > > + uint32_t unused3, unused4; > These are all uint16_t. more on this: I can make the first 2 uint16_t, but not the rest due to the way they are declared in INTEL_VGA_DEVICE: (~0 has int type by default), unused3 and unused4 are clearly not uint16_t > > > + unsigned long unused5; > > Simply make the unused disappear from the macro. that would mean defining macro hackery to get hid of them from INTEL_VGA_DEVICE() by using macro recursion, but not worth IMO. If we want to go this route, then I think we should at least use X Macro to define the ids rather than the list we currently have. Something along the lines (in i915_pciids.h): #define _INTEL_ICL_IDS \ X(0x8A50) \ X(0x8A51) \ X(0x8A5C) \ X(0x8A5D) \ X(0x8A52) \ X(0x8A5A) \ X(0x8A5B) \ X(0x8A71) \ X(0x8A70) ... #define X(id, info) INTEL_VGA_DEVICE(id, info), #define INTEL_ICL_IDS(info) _INTEL_ICL_IDS #undef X Then here we would just define another X to transform the list into an array: #include "i915_pciids.h" ... #define X(id, gen) { id, gen } struct pci_device { uint16_t id; uint16_t gen; } devices = { _INTEL_ICL_IDS } We would be screwed if X is defined to something else, but we could change the name. Lucas De Marchi > > > +}; > > + > > +#define IS_GENX(x, devid) ({ \ > > + struct pci_device_id __ids[] = { INTEL_ ## x ## _IDS(0) }; \ > > While that's a neat trick it's instantiating the array for each caller, > and it does appear that we repeat a few of the macros. > > The best I can offer to keep the change non-invasive (other than just > switching to a platform bitmask and filling (devid, gen, platform) from > the pci match data on initialisation) is a two pass approach. > > static inline int __find_in_pciid(uint16_t devid, > const struct pci_device_id *ids, size_t count) > { > size_t i = 0; /* we should rethink this if we think there are more than 4B of them! */ > for (i = 0; i < count; i++) { > if (ids[i].device == devid) > return 1; > } > return 0; > } > > > #define __is_genx(x) \ > static inline int __is_gen##x(uint16_t devid) \ > { \ > static const struct pci_device_id __ids[] = { INTEL_ ## x ## _IDS(0) }; \ > return __find_in_pciid(devid, __ids, sizeof(__ids)/sizeof(__ids[0]); \ > } > __is_genx(3); > __is_genx(4); > __is_genx(5); > __is_genx(6); > __is_genx(7); > __is_genx(8); > __is_genx(9); > __is_genx(10); > __is_genx(11); > > #define IS_GENX(x, devid) __is_gen##x(devid) > > That should help cut down the object size expansion. But longer term I'd > prefer if we moved to towards finding the match data once. Also we need > to pull into the canonical header the friendly names for mesa. > -Chris _______________________________________________ Intel-gfx mailing list Intel-gfx@xxxxxxxxxxxxxxxxxxxxx https://lists.freedesktop.org/mailman/listinfo/intel-gfx