#include "radeon_compiler.h" #include "radeon_compiler_util.h" #include "radeon_dataflow.h" #include "radeon_program.h" #include "radeon_program_constants.h" #include #define VERBOSE 0 #define DBG(...) do { if (VERBOSE) fprintf(stderr, __VA_ARGS__); } while(0) /* IEEE-754: * 22:0 mantissa * 30:23 exponent * 31 sign * * R300: * 0:2 mantissa * 3:6 exponent (bias 7) */ static int ieee_754_to_r300_float(float f, unsigned char *r300_float_out) { unsigned float_bits = *((unsigned *)&f); /* XXX: Handle big-endian */ unsigned mantissa = float_bits & 0x007fffff; unsigned biased_exponent = (float_bits & 0x7f800000) >> 23; unsigned negate = !!(float_bits & 0x80000000); int exponent = biased_exponent - 127; unsigned mantissa_mask = 0xff8fffff; unsigned r300_exponent, r300_mantissa; DBG("Converting %f (0x%x) to 7-bit:\n", f, float_bits); DBG("Raw exponent = %d\n", exponent); if (exponent < -7 || exponent > 8) { DBG("Failed exponent out of range\n\n"); return 0; } if (mantissa & mantissa_mask) { DBG("Failed mantisa has too many bits:\n" "manitssa=0x%x mantissa_mask=0x%x, and=0x%x\n\n", mantissa, mantissa_mask, mantissa & mantissa_mask); return 0; } r300_exponent = exponent + 7; r300_mantissa = (mantissa & ~mantissa_mask) >> 20; *r300_float_out = r300_mantissa | (r300_exponent << 3); DBG("Success! r300_float = 0x%x\n\n", *r300_float_out); if (negate) return -1; else return 1; } void rc_inline_literals(struct radeon_compiler *c, void *user) { struct rc_instruction * inst; for(inst = c->Program.Instructions.Next; inst != &c->Program.Instructions; inst = inst->Next) { const struct rc_opcode_info * info = rc_get_opcode_info(inst->U.I.Opcode); unsigned src_idx; struct rc_constant * constant; float float_value; unsigned char r300_float = 0; int ret; /* XXX: Handle presub */ /* We aren't using rc_for_all_reads_src here, because presub * sources need to be handled differently. */ for (src_idx = 0; src_idx < info->NumSrcRegs; src_idx++) { unsigned new_swizzle; unsigned use_literal = 0; unsigned negate_mask = 0; unsigned swz, chan; struct rc_src_register * src_reg = &inst->U.I.SrcReg[src_idx]; swz = RC_SWIZZLE_UNUSED; if (src_reg->File != RC_FILE_CONSTANT) { continue; } constant = &c->Program.Constants.Constants[src_reg->Index]; if (constant->Type != RC_CONSTANT_IMMEDIATE) { continue; } new_swizzle = rc_init_swizzle(RC_SWIZZLE_UNUSED, 0); for (chan = 0; chan < 4; chan++) { unsigned char r300_float_tmp; swz = GET_SWZ(src_reg->Swizzle, chan); if (swz == RC_SWIZZLE_UNUSED) { continue; } float_value = constant->u.Immediate[swz]; ret = ieee_754_to_r300_float(float_value, &r300_float_tmp); if (!ret || (use_literal && r300_float != r300_float_tmp)) { use_literal = 0; break; } if (ret == -1 && src_reg->Abs) { use_literal = 0; break; } if (!use_literal) { r300_float = r300_float_tmp; use_literal = 1; } /* Use RC_SWIZZLE_W for the inline constant, so * it will become one of the alpha sources. */ SET_SWZ(new_swizzle, chan, RC_SWIZZLE_W); if (ret == -1) { negate_mask |= (1 << chan); } } if (!use_literal) { continue; } src_reg->File = RC_FILE_INLINE; src_reg->Index = r300_float; src_reg->Swizzle = new_swizzle; src_reg->Negate = src_reg->Negate ^ negate_mask; } } }