diff options
author | Brian Paul <[email protected]> | 2009-01-11 14:22:00 -0700 |
---|---|---|
committer | Brian Paul <[email protected]> | 2009-01-11 14:22:00 -0700 |
commit | c4a782041b19cb4a08712384b19be25b79acba3c (patch) | |
tree | 574f0ec7dab244aa24cf42caf650d9f5c6750c6f /src/gallium/auxiliary | |
parent | c73b8c41313b4f1f425f0e56a8c1650b70c39fc8 (diff) |
cell: datatype clean-ups in SPE rtasm
Diffstat (limited to 'src/gallium/auxiliary')
-rw-r--r-- | src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c | 123 | ||||
-rw-r--r-- | src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h | 81 |
2 files changed, 99 insertions, 105 deletions
diff --git a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c index 071bc2015c7..53a0e722cff 100644 --- a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c +++ b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c @@ -213,8 +213,8 @@ emit_instruction(struct spe_function *p, uint32_t inst_bits) -static void emit_RR(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, unsigned rB, const char *name) +static void emit_RR(struct spe_function *p, unsigned op, int rT, + int rA, int rB, const char *name) { union spe_inst_RR inst; inst.inst.op = op; @@ -230,8 +230,8 @@ static void emit_RR(struct spe_function *p, unsigned op, unsigned rT, } -static void emit_RRR(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, unsigned rB, unsigned rC, const char *name) +static void emit_RRR(struct spe_function *p, unsigned op, int rT, + int rA, int rB, int rC, const char *name) { union spe_inst_RRR inst; inst.inst.op = op; @@ -248,8 +248,8 @@ static void emit_RRR(struct spe_function *p, unsigned op, unsigned rT, } -static void emit_RI7(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, int imm, const char *name) +static void emit_RI7(struct spe_function *p, unsigned op, int rT, + int rA, int imm, const char *name) { union spe_inst_RI7 inst; inst.inst.op = op; @@ -266,8 +266,8 @@ static void emit_RI7(struct spe_function *p, unsigned op, unsigned rT, -static void emit_RI8(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, int imm, const char *name) +static void emit_RI8(struct spe_function *p, unsigned op, int rT, + int rA, int imm, const char *name) { union spe_inst_RI8 inst; inst.inst.op = op; @@ -284,8 +284,8 @@ static void emit_RI8(struct spe_function *p, unsigned op, unsigned rT, -static void emit_RI10(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, int imm, const char *name) +static void emit_RI10(struct spe_function *p, unsigned op, int rT, + int rA, int imm, const char *name) { union spe_inst_RI10 inst; inst.inst.op = op; @@ -302,8 +302,8 @@ static void emit_RI10(struct spe_function *p, unsigned op, unsigned rT, /** As above, but do range checking on signed immediate value */ -static void emit_RI10s(struct spe_function *p, unsigned op, unsigned rT, - unsigned rA, int imm, const char *name) +static void emit_RI10s(struct spe_function *p, unsigned op, int rT, + int rA, int imm, const char *name) { assert(imm <= 511); assert(imm >= -512); @@ -311,7 +311,7 @@ static void emit_RI10s(struct spe_function *p, unsigned op, unsigned rT, } -static void emit_RI16(struct spe_function *p, unsigned op, unsigned rT, +static void emit_RI16(struct spe_function *p, unsigned op, int rT, int imm, const char *name) { union spe_inst_RI16 inst; @@ -326,7 +326,7 @@ static void emit_RI16(struct spe_function *p, unsigned op, unsigned rT, } -static void emit_RI18(struct spe_function *p, unsigned op, unsigned rT, +static void emit_RI18(struct spe_function *p, unsigned op, int rT, int imm, const char *name) { union spe_inst_RI18 inst; @@ -348,61 +348,61 @@ void _name (struct spe_function *p) \ } #define EMIT_(_name, _op) \ -void _name (struct spe_function *p, unsigned rT) \ +void _name (struct spe_function *p, int rT) \ { \ emit_RR(p, _op, rT, 0, 0, __FUNCTION__); \ } #define EMIT_R(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA) \ +void _name (struct spe_function *p, int rT, int rA) \ { \ emit_RR(p, _op, rT, rA, 0, __FUNCTION__); \ } #define EMIT_RR(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, unsigned rB) \ +void _name (struct spe_function *p, int rT, int rA, int rB) \ { \ emit_RR(p, _op, rT, rA, rB, __FUNCTION__); \ } #define EMIT_RRR(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, unsigned rB, unsigned rC) \ +void _name (struct spe_function *p, int rT, int rA, int rB, int rC) \ { \ emit_RRR(p, _op, rT, rA, rB, rC, __FUNCTION__); \ } #define EMIT_RI7(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, int imm) \ +void _name (struct spe_function *p, int rT, int rA, int imm) \ { \ emit_RI7(p, _op, rT, rA, imm, __FUNCTION__); \ } #define EMIT_RI8(_name, _op, bias) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, int imm) \ +void _name (struct spe_function *p, int rT, int rA, int imm) \ { \ emit_RI8(p, _op, rT, rA, bias - imm, __FUNCTION__); \ } #define EMIT_RI10(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, int imm) \ +void _name (struct spe_function *p, int rT, int rA, int imm) \ { \ emit_RI10(p, _op, rT, rA, imm, __FUNCTION__); \ } #define EMIT_RI10s(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, unsigned rA, int imm) \ +void _name (struct spe_function *p, int rT, int rA, int imm) \ { \ emit_RI10s(p, _op, rT, rA, imm, __FUNCTION__); \ } #define EMIT_RI16(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, int imm) \ +void _name (struct spe_function *p, int rT, int imm) \ { \ emit_RI16(p, _op, rT, imm, __FUNCTION__); \ } #define EMIT_RI18(_name, _op) \ -void _name (struct spe_function *p, unsigned rT, int imm) \ +void _name (struct spe_function *p, int rT, int imm) \ { \ emit_RI18(p, _op, rT, imm, __FUNCTION__); \ } @@ -424,7 +424,7 @@ void _name (struct spe_function *p, int imm) \ */ void spe_init_func(struct spe_function *p, unsigned code_size) { - unsigned int i; + uint i; if (!code_size) code_size = 64; @@ -503,6 +503,7 @@ int spe_allocate_register(struct spe_function *p, int reg) */ void spe_release_register(struct spe_function *p, int reg) { + assert(reg >= 0); assert(reg < SPE_NUM_REGS); assert(p->regs[reg] == 1); @@ -517,7 +518,7 @@ void spe_release_register(struct spe_function *p, int reg) */ void spe_allocate_register_set(struct spe_function *p) { - unsigned int i; + uint i; /* Keep track of the set count. If it ever wraps around to 0, * we're in trouble. @@ -538,7 +539,7 @@ void spe_allocate_register_set(struct spe_function *p) void spe_release_register_set(struct spe_function *p) { - unsigned int i; + uint i; /* If the set count drops below zero, we're in trouble. */ assert(p->set_count > 0); @@ -599,7 +600,7 @@ spe_comment(struct spe_function *p, int rel_indent, const char *s) * Load quad word. * NOTE: offset is in bytes and the least significant 4 bits must be zero! */ -void spe_lqd(struct spe_function *p, unsigned rT, unsigned rA, int offset) +void spe_lqd(struct spe_function *p, int rT, int rA, int offset) { const boolean pSave = p->print; @@ -624,7 +625,7 @@ void spe_lqd(struct spe_function *p, unsigned rT, unsigned rA, int offset) * Store quad word. * NOTE: offset is in bytes and the least significant 4 bits must be zero! */ -void spe_stqd(struct spe_function *p, unsigned rT, unsigned rA, int offset) +void spe_stqd(struct spe_function *p, int rT, int rA, int offset) { const boolean pSave = p->print; @@ -653,51 +654,51 @@ void spe_stqd(struct spe_function *p, unsigned rT, unsigned rA, int offset) */ /** Branch Indirect to address in rA */ -void spe_bi(struct spe_function *p, unsigned rA, int d, int e) +void spe_bi(struct spe_function *p, int rA, int d, int e) { emit_RI7(p, 0x1a8, 0, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Interupt Return */ -void spe_iret(struct spe_function *p, unsigned rA, int d, int e) +void spe_iret(struct spe_function *p, int rA, int d, int e) { emit_RI7(p, 0x1aa, 0, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect and set link on external data */ -void spe_bisled(struct spe_function *p, unsigned rT, unsigned rA, int d, +void spe_bisled(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x1ab, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect and set link. Save PC in rT, jump to rA. */ -void spe_bisl(struct spe_function *p, unsigned rT, unsigned rA, int d, +void spe_bisl(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x1a9, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect if zero word. If rT.word[0]==0, jump to rA. */ -void spe_biz(struct spe_function *p, unsigned rT, unsigned rA, int d, int e) +void spe_biz(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x128, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect if non-zero word. If rT.word[0]!=0, jump to rA. */ -void spe_binz(struct spe_function *p, unsigned rT, unsigned rA, int d, int e) +void spe_binz(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x129, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect if zero halfword. If rT.halfword[1]==0, jump to rA. */ -void spe_bihz(struct spe_function *p, unsigned rT, unsigned rA, int d, int e) +void spe_bihz(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x12a, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } /** Branch indirect if non-zero halfword. If rT.halfword[1]!=0, jump to rA. */ -void spe_bihnz(struct spe_function *p, unsigned rT, unsigned rA, int d, int e) +void spe_bihnz(struct spe_function *p, int rT, int rA, int d, int e) { emit_RI7(p, 0x12b, rT, rA, (d << 5) | (e << 4), __FUNCTION__); } @@ -733,7 +734,7 @@ EMIT_R (spe_mtspr, 0x10c); void -spe_load_float(struct spe_function *p, unsigned rT, float x) +spe_load_float(struct spe_function *p, int rT, float x) { if (x == 0.0f) { spe_il(p, rT, 0x0); @@ -760,7 +761,7 @@ spe_load_float(struct spe_function *p, unsigned rT, float x) void -spe_load_int(struct spe_function *p, unsigned rT, int i) +spe_load_int(struct spe_function *p, int rT, int i) { if (-32768 <= i && i <= 32767) { spe_il(p, rT, i); @@ -772,7 +773,7 @@ spe_load_int(struct spe_function *p, unsigned rT, int i) } } -void spe_load_uint(struct spe_function *p, unsigned rT, unsigned int ui) +void spe_load_uint(struct spe_function *p, int rT, uint ui) { /* If the whole value is in the lower 18 bits, use ila, which * doesn't sign-extend. Otherwise, if the two halfwords of @@ -793,7 +794,7 @@ void spe_load_uint(struct spe_function *p, unsigned rT, unsigned int ui) ((ui & 0x00ff0000) == 0 || (ui & 0x00ff0000) == 0x00ff0000) && ((ui & 0xff000000) == 0 || (ui & 0xff000000) == 0xff000000) ) { - unsigned int mask = 0; + uint mask = 0; /* fsmbi duplicates each bit in the given mask eight times, * using a 16-bit value to initialize a 16-byte quadword. * Each 4-bit nybble of the mask corresponds to a full word @@ -822,7 +823,7 @@ void spe_load_uint(struct spe_function *p, unsigned rT, unsigned int ui) * Changes to one should be made in the other. */ void -spe_and_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) +spe_and_uint(struct spe_function *p, int rT, int rA, uint ui) { /* If we can, emit a single instruction, either And Byte Immediate * (which uses the same constant across each byte), And Halfword Immediate @@ -832,7 +833,7 @@ spe_and_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) * * Otherwise, we'll need to use a temporary register. */ - unsigned int tmp; + uint tmp; /* If the upper 23 bits are all 0s or all 1s, sign extension * will work and we can use And Word Immediate @@ -863,7 +864,7 @@ spe_and_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) } /* Otherwise, we'll have to use a temporary register. */ - unsigned int tmp_reg = spe_allocate_available_register(p); + int tmp_reg = spe_allocate_available_register(p); spe_load_uint(p, tmp_reg, ui); spe_and(p, rT, rA, tmp_reg); spe_release_register(p, tmp_reg); @@ -875,7 +876,7 @@ spe_and_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) * Changes to one should be made in the other. */ void -spe_xor_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) +spe_xor_uint(struct spe_function *p, int rT, int rA, uint ui) { /* If we can, emit a single instruction, either Exclusive Or Byte * Immediate (which uses the same constant across each byte), Exclusive @@ -885,7 +886,7 @@ spe_xor_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) * * Otherwise, we'll need to use a temporary register. */ - unsigned int tmp; + uint tmp; /* If the upper 23 bits are all 0s or all 1s, sign extension * will work and we can use Exclusive Or Word Immediate @@ -916,14 +917,14 @@ spe_xor_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) } /* Otherwise, we'll have to use a temporary register. */ - unsigned int tmp_reg = spe_allocate_available_register(p); + int tmp_reg = spe_allocate_available_register(p); spe_load_uint(p, tmp_reg, ui); spe_xor(p, rT, rA, tmp_reg); spe_release_register(p, tmp_reg); } void -spe_compare_equal_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) +spe_compare_equal_uint(struct spe_function *p, int rT, int rA, uint ui) { /* If the comparison value is 9 bits or less, it fits inside a * Compare Equal Word Immediate instruction. @@ -933,7 +934,7 @@ spe_compare_equal_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigne } /* Otherwise, we're going to have to load a word first. */ else { - unsigned int tmp_reg = spe_allocate_available_register(p); + int tmp_reg = spe_allocate_available_register(p); spe_load_uint(p, tmp_reg, ui); spe_ceq(p, rT, rA, tmp_reg); spe_release_register(p, tmp_reg); @@ -941,7 +942,7 @@ spe_compare_equal_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigne } void -spe_compare_greater_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui) +spe_compare_greater_uint(struct spe_function *p, int rT, int rA, uint ui) { /* If the comparison value is 10 bits or less, it fits inside a * Compare Logical Greater Than Word Immediate instruction. @@ -951,7 +952,7 @@ spe_compare_greater_uint(struct spe_function *p, unsigned rT, unsigned rA, unsig } /* Otherwise, we're going to have to load a word first. */ else { - unsigned int tmp_reg = spe_allocate_available_register(p); + int tmp_reg = spe_allocate_available_register(p); spe_load_uint(p, tmp_reg, ui); spe_clgt(p, rT, rA, tmp_reg); spe_release_register(p, tmp_reg); @@ -959,10 +960,10 @@ spe_compare_greater_uint(struct spe_function *p, unsigned rT, unsigned rA, unsig } void -spe_splat(struct spe_function *p, unsigned rT, unsigned rA) +spe_splat(struct spe_function *p, int rT, int rA) { /* Use a temporary, just in case rT == rA */ - unsigned int tmp_reg = spe_allocate_available_register(p); + int tmp_reg = spe_allocate_available_register(p); /* Duplicate bytes 0, 1, 2, and 3 across the whole register */ spe_ila(p, tmp_reg, 0x00010203); spe_shufb(p, rT, rA, rA, tmp_reg); @@ -971,14 +972,14 @@ spe_splat(struct spe_function *p, unsigned rT, unsigned rA) void -spe_complement(struct spe_function *p, unsigned rT, unsigned rA) +spe_complement(struct spe_function *p, int rT, int rA) { spe_nor(p, rT, rA, rA); } void -spe_move(struct spe_function *p, unsigned rT, unsigned rA) +spe_move(struct spe_function *p, int rT, int rA) { /* Use different instructions depending on the instruction address * to take advantage of the dual pipelines. @@ -991,14 +992,14 @@ spe_move(struct spe_function *p, unsigned rT, unsigned rA) void -spe_zero(struct spe_function *p, unsigned rT) +spe_zero(struct spe_function *p, int rT) { spe_xor(p, rT, rT, rT); } void -spe_splat_word(struct spe_function *p, unsigned rT, unsigned rA, int word) +spe_splat_word(struct spe_function *p, int rT, int rA, int word) { assert(word >= 0); assert(word <= 3); @@ -1038,9 +1039,9 @@ spe_splat_word(struct spe_function *p, unsigned rT, unsigned rA, int word) * like "x = min(x, a)", we always allocate a new register to be safe. */ void -spe_float_min(struct spe_function *p, unsigned rT, unsigned rA, unsigned rB) +spe_float_min(struct spe_function *p, int rT, int rA, int rB) { - unsigned int compare_reg = spe_allocate_available_register(p); + int compare_reg = spe_allocate_available_register(p); spe_fcgt(p, compare_reg, rA, rB); spe_selb(p, rT, rA, rB, compare_reg); spe_release_register(p, compare_reg); @@ -1055,9 +1056,9 @@ spe_float_min(struct spe_function *p, unsigned rT, unsigned rA, unsigned rB) * so that the larger of the two is selected instead of the smaller. */ void -spe_float_max(struct spe_function *p, unsigned rT, unsigned rA, unsigned rB) +spe_float_max(struct spe_function *p, int rT, int rA, int rB) { - unsigned int compare_reg = spe_allocate_available_register(p); + int compare_reg = spe_allocate_available_register(p); spe_fcgt(p, compare_reg, rA, rB); spe_selb(p, rT, rB, rA, compare_reg); spe_release_register(p, compare_reg); diff --git a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h index f9ad2acacdd..65d9c774154 100644 --- a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h +++ b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h @@ -79,9 +79,9 @@ struct spe_function }; -extern void spe_init_func(struct spe_function *p, unsigned code_size); +extern void spe_init_func(struct spe_function *p, uint code_size); extern void spe_release_func(struct spe_function *p); -extern unsigned spe_code_size(const struct spe_function *p); +extern uint spe_code_size(const struct spe_function *p); extern int spe_allocate_available_register(struct spe_function *p); extern int spe_allocate_register(struct spe_function *p, int reg); @@ -89,8 +89,7 @@ extern void spe_release_register(struct spe_function *p, int reg); extern void spe_allocate_register_set(struct spe_function *p); extern void spe_release_register_set(struct spe_function *p); -extern unsigned -spe_get_registers_used(const struct spe_function *p, ubyte used[]); +extern uint spe_get_registers_used(const struct spe_function *p, ubyte used[]); extern void spe_print_code(struct spe_function *p, boolean enable); extern void spe_indent(struct spe_function *p, int spaces); @@ -103,31 +102,25 @@ extern void spe_comment(struct spe_function *p, int rel_indent, const char *s); #define EMIT(_name, _op) \ extern void _name (struct spe_function *p); #define EMIT_(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT); + extern void _name (struct spe_function *p, int rT); #define EMIT_R(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA); + extern void _name (struct spe_function *p, int rT, int rA); #define EMIT_RR(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - unsigned rB); + extern void _name (struct spe_function *p, int rT, int rA, int rB); #define EMIT_RRR(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - unsigned rB, unsigned rC); + extern void _name (struct spe_function *p, int rT, int rA, int rB, int rC); #define EMIT_RI7(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - int imm); + extern void _name (struct spe_function *p, int rT, int rA, int imm); #define EMIT_RI8(_name, _op, bias) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - int imm); + extern void _name (struct spe_function *p, int rT, int rA, int imm); #define EMIT_RI10(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - int imm); + extern void _name (struct spe_function *p, int rT, int rA, int imm); #define EMIT_RI10s(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, unsigned rA, \ - int imm); + extern void _name (struct spe_function *p, int rT, int rA, int imm); #define EMIT_RI16(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, int imm); + extern void _name (struct spe_function *p, int rT, int imm); #define EMIT_RI18(_name, _op) \ - extern void _name (struct spe_function *p, unsigned rT, int imm); + extern void _name (struct spe_function *p, int rT, int imm); #define EMIT_I16(_name, _op) \ extern void _name (struct spe_function *p, int imm); #define UNDEF_EMIT_MACROS @@ -301,82 +294,82 @@ EMIT_RI16(spe_brhz, 0x044) EMIT (spe_lnop, 0x001) extern void -spe_lqd(struct spe_function *p, unsigned rT, unsigned rA, int offset); +spe_lqd(struct spe_function *p, int rT, int rA, int offset); extern void -spe_stqd(struct spe_function *p, unsigned rT, unsigned rA, int offset); +spe_stqd(struct spe_function *p, int rT, int rA, int offset); -extern void spe_bi(struct spe_function *p, unsigned rA, int d, int e); -extern void spe_iret(struct spe_function *p, unsigned rA, int d, int e); -extern void spe_bisled(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_bi(struct spe_function *p, int rA, int d, int e); +extern void spe_iret(struct spe_function *p, int rA, int d, int e); +extern void spe_bisled(struct spe_function *p, int rT, int rA, int d, int e); -extern void spe_bisl(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_bisl(struct spe_function *p, int rT, int rA, int d, int e); -extern void spe_biz(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_biz(struct spe_function *p, int rT, int rA, int d, int e); -extern void spe_binz(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_binz(struct spe_function *p, int rT, int rA, int d, int e); -extern void spe_bihz(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_bihz(struct spe_function *p, int rT, int rA, int d, int e); -extern void spe_bihnz(struct spe_function *p, unsigned rT, unsigned rA, +extern void spe_bihnz(struct spe_function *p, int rT, int rA, int d, int e); /** Load/splat immediate float into rT. */ extern void -spe_load_float(struct spe_function *p, unsigned rT, float x); +spe_load_float(struct spe_function *p, int rT, float x); /** Load/splat immediate int into rT. */ extern void -spe_load_int(struct spe_function *p, unsigned rT, int i); +spe_load_int(struct spe_function *p, int rT, int i); /** Load/splat immediate unsigned int into rT. */ extern void -spe_load_uint(struct spe_function *p, unsigned rT, unsigned int ui); +spe_load_uint(struct spe_function *p, int rT, uint ui); /** And immediate value into rT. */ extern void -spe_and_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui); +spe_and_uint(struct spe_function *p, int rT, int rA, uint ui); /** Xor immediate value into rT. */ extern void -spe_xor_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui); +spe_xor_uint(struct spe_function *p, int rT, int rA, uint ui); /** Compare equal with immediate value. */ extern void -spe_compare_equal_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui); +spe_compare_equal_uint(struct spe_function *p, int rT, int rA, uint ui); /** Compare greater with immediate value. */ extern void -spe_compare_greater_uint(struct spe_function *p, unsigned rT, unsigned rA, unsigned int ui); +spe_compare_greater_uint(struct spe_function *p, int rT, int rA, uint ui); /** Replicate word 0 of rA across rT. */ extern void -spe_splat(struct spe_function *p, unsigned rT, unsigned rA); +spe_splat(struct spe_function *p, int rT, int rA); /** rT = complement_all_bits(rA). */ extern void -spe_complement(struct spe_function *p, unsigned rT, unsigned rA); +spe_complement(struct spe_function *p, int rT, int rA); /** rT = rA. */ extern void -spe_move(struct spe_function *p, unsigned rT, unsigned rA); +spe_move(struct spe_function *p, int rT, int rA); /** rT = {0,0,0,0}. */ extern void -spe_zero(struct spe_function *p, unsigned rT); +spe_zero(struct spe_function *p, int rT); /** rT = splat(rA, word) */ extern void -spe_splat_word(struct spe_function *p, unsigned rT, unsigned rA, int word); +spe_splat_word(struct spe_function *p, int rT, int rA, int word); /** rT = float min(rA, rB) */ extern void -spe_float_min(struct spe_function *p, unsigned rT, unsigned rA, unsigned rB); +spe_float_min(struct spe_function *p, int rT, int rA, int rB); /** rT = float max(rA, rB) */ extern void -spe_float_max(struct spe_function *p, unsigned rT, unsigned rA, unsigned rB); +spe_float_max(struct spe_function *p, int rT, int rA, int rB); /* Floating-point instructions |