Shipwright/ZAPDTR/lib/libgfxd/uc_argfn.c

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#define MDMASK(md) ((((uint32_t)1 << G_MDSIZ_##md) - 1) << G_MDSFT_##md)
#define MDMASK_RM_C1 ((uint32_t)0xCCCC0000)
#define MDMASK_RM_C2 ((uint32_t)0x33330000)
#define MDMASK_RM_LO ((uint32_t)0x0000FFF8)
UCFUNC int argfn_i(const gfxd_value_t *v)
{
return gfxd_printf("%" PRIi32, v->i);
}
UCFUNC int argfn_u(const gfxd_value_t *v)
{
return gfxd_printf("%" PRIu32, v->u);
}
UCFUNC int argfn_x8(const gfxd_value_t *v)
{
return gfxd_printf("0x%02" PRIX32, v->u);
}
UCFUNC int argfn_x16(const gfxd_value_t *v)
{
return gfxd_printf("0x%04" PRIX32, v->u);
}
UCFUNC int argfn_x32(const gfxd_value_t *v)
{
return gfxd_printf("0x%08" PRIX32, v->u);
}
UCFUNC int argfn_color(const gfxd_value_t *v)
{
if (config.emit_dec_color)
return gfxd_printf("%" PRIu32, v->u);
else
return gfxd_printf("0x%02" PRIX32, v->u);
}
UCFUNC int argfn_qu08(const gfxd_value_t *v)
{
if (v->u == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qu08(%.16g)", v->u / 256.f);
else
return gfxd_printf("0x%02" PRIX32, v->u);
}
UCFUNC int argfn_qu016(const gfxd_value_t *v)
{
if (v->u == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qu016(%.16g)", v->u / 65536.f);
else
return gfxd_printf("0x%04" PRIX32, v->u);
}
UCFUNC int argfn_qs48(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qs48(%.16g)", v->i / 256.f);
else
{
if (v->i < 0)
return gfxd_printf("-0x%04" PRIX32, (uint32_t)-v->i);
else
return gfxd_printf("0x%04" PRIX32, (uint32_t)v->i);
}
}
UCFUNC int argfn_qs510(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qs510(%.16g)", v->i / 1024.f);
else
{
if (v->i < 0)
return gfxd_printf("-0x%04" PRIX32, (uint32_t)-v->i);
else
return gfxd_printf("0x%04" PRIX32, (uint32_t)v->i);
}
}
UCFUNC int argfn_qu102(const gfxd_value_t *v)
{
if (v->u == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qu102(%.16g)", v->u / 4.f);
else
return gfxd_printf("0x%04" PRIX32, v->u);
}
UCFUNC int argfn_qs105(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qs105(%.16g)", v->i / 32.f);
else
{
if (v->i < 0)
return gfxd_printf("-0x%04" PRIX32, (uint32_t)-v->i);
else
return gfxd_printf("0x%04" PRIX32, (uint32_t)v->i);
}
}
UCFUNC int argfn_qs1616(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("0");
else if (config.emit_q_macro)
return gfxd_printf("qs1616(%.16g)", v->i / 65536.f);
else
{
if (v->i < 0)
return gfxd_printf("-0x%08" PRIX32, (uint32_t)-v->i);
else
return gfxd_printf("0x%08" PRIX32, (uint32_t)v->i);
}
}
UCFUNC int argfn_opc(const gfxd_value_t *v)
{
switch (v->i)
{
case G_SPNOOP:
return gfxd_puts("G_SPNOOP");
case G_MTX:
return gfxd_puts("G_MTX");
case G_MOVEMEM:
return gfxd_puts("G_MOVEMEM");
case G_VTX:
return gfxd_puts("G_VTX");
case G_DL:
return gfxd_puts("G_DL");
case G_RDPHALF_2:
return gfxd_puts("G_RDPHALF_2");
case G_RDPHALF_1:
return gfxd_puts("G_RDPHALF_1");
#if defined(F3D_BETA) && (defined(F3D_GBI) || defined(F3DEX_GBI))
case G_PERSPNORM:
return gfxd_puts("G_PERSPNORM");
#endif
case G_LINE3D:
return gfxd_puts("G_LINE3D");
#if defined(F3D_GBI) || defined(F3DEX_GBI)
case G_CLEARGEOMETRYMODE:
return gfxd_puts("G_CLEARGEOMETRYMODE");
case G_SETGEOMETRYMODE:
return gfxd_puts("G_SETGEOMETRYMODE");
#endif
case G_ENDDL:
return gfxd_puts("G_ENDDL");
case G_SETOTHERMODE_L:
return gfxd_puts("G_SETOTHERMODE_L");
case G_SETOTHERMODE_H:
return gfxd_puts("G_SETOTHERMODE_H");
case G_TEXTURE:
return gfxd_puts("G_TEXTURE");
case G_MOVEWORD:
return gfxd_puts("G_MOVEWORD");
case G_POPMTX:
return gfxd_puts("G_POPMTX");
case G_CULLDL:
return gfxd_puts("G_CULLDL");
case G_TRI1:
return gfxd_puts("G_TRI1");
case G_NOOP:
return gfxd_puts("G_NOOP");
#if defined(F3DEX_GBI) || defined(F3DEX_GBI_2)
case G_LOAD_UCODE:
return gfxd_puts("G_LOAD_UCODE");
case G_BRANCH_Z:
return gfxd_puts("G_BRANCH_Z");
case G_TRI2:
return gfxd_puts("G_TRI2");
# if !(defined(F3D_BETA) && defined(F3DEX_GBI))
case G_MODIFYVTX:
return gfxd_puts("G_MODIFYVTX");
# endif
#endif
#if defined(F3DEX_GBI_2)
case G_QUAD:
return gfxd_puts("G_QUAD");
case G_SPECIAL_3:
return gfxd_puts("G_SPECIAL_3");
case G_SPECIAL_2:
return gfxd_puts("G_SPECIAL_2");
case G_SPECIAL_1:
return gfxd_puts("G_SPECIAL_1");
case G_DMA_IO:
return gfxd_puts("G_DMA_IO");
case G_GEOMETRYMODE:
return gfxd_puts("G_GEOMETRYMODE");
#endif
case G_TEXRECT:
return gfxd_puts("G_TEXRECT");
case G_TEXRECTFLIP:
return gfxd_puts("G_TEXRECTFLIP");
case G_RDPLOADSYNC:
return gfxd_puts("G_RDPLOADSYNC");
case G_RDPPIPESYNC:
return gfxd_puts("G_RDPPIPESYNC");
case G_RDPTILESYNC:
return gfxd_puts("G_RDPTILESYNC");
case G_RDPFULLSYNC:
return gfxd_puts("G_RDPFULLSYNC");
case G_SETKEYGB:
return gfxd_puts("G_SETKEYGB");
case G_SETKEYR:
return gfxd_puts("G_SETKEYR");
case G_SETCONVERT:
return gfxd_puts("G_SETCONVERT");
case G_SETSCISSOR:
return gfxd_puts("G_SETSCISSOR");
case G_SETPRIMDEPTH:
return gfxd_puts("G_SETPRIMDEPTH");
case G_RDPSETOTHERMODE:
return gfxd_puts("G_RDPSETOTHERMODE");
case G_LOADTLUT:
return gfxd_puts("G_LOADTLUT");
case G_SETTILESIZE:
return gfxd_puts("G_SETTILESIZE");
case G_LOADBLOCK:
return gfxd_puts("G_LOADBLOCK");
case G_LOADTILE:
return gfxd_puts("G_LOADTILE");
case G_SETTILE:
return gfxd_puts("G_SETTILE");
case G_FILLRECT:
return gfxd_puts("G_FILLRECT");
case G_SETFILLCOLOR:
return gfxd_puts("G_SETFILLCOLOR");
case G_SETFOGCOLOR:
return gfxd_puts("G_SETFOGCOLOR");
case G_SETBLENDCOLOR:
return gfxd_puts("G_SETBLENDCOLOR");
case G_SETPRIMCOLOR:
return gfxd_puts("G_SETPRIMCOLOR");
case G_SETENVCOLOR:
return gfxd_puts("G_SETENVCOLOR");
case G_SETCOMBINE:
return gfxd_puts("G_SETCOMBINE");
case G_SETTIMG:
return gfxd_puts("G_SETTIMG");
case G_SETZIMG:
return gfxd_puts("G_SETZIMG");
case G_SETCIMG:
return gfxd_puts("G_SETCIMG");
default:
return gfxd_printf("0x%02" PRIX32, (uint32_t)v->i);
}
}
UCFUNC int argfn_fmt(const gfxd_value_t *v)
{
switch (v->i)
{
case G_IM_FMT_RGBA:
return gfxd_puts("G_IM_FMT_RGBA");
case G_IM_FMT_YUV:
return gfxd_puts("G_IM_FMT_YUV");
case G_IM_FMT_CI:
return gfxd_puts("G_IM_FMT_CI");
case G_IM_FMT_IA:
return gfxd_puts("G_IM_FMT_IA");
case G_IM_FMT_I:
return gfxd_puts("G_IM_FMT_I");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_siz(const gfxd_value_t *v)
{
switch (v->i)
{
case G_IM_SIZ_4b:
return gfxd_puts("G_IM_SIZ_4b");
case G_IM_SIZ_8b:
return gfxd_puts("G_IM_SIZ_8b");
case G_IM_SIZ_16b:
return gfxd_puts("G_IM_SIZ_16b");
case G_IM_SIZ_32b:
return gfxd_puts("G_IM_SIZ_32b");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_cm(const gfxd_value_t *v)
{
int n = 0;
if (v->u & G_TX_MIRROR)
n += gfxd_puts("G_TX_MIRROR");
else
n += gfxd_puts("G_TX_NOMIRROR");
if (v->u & G_TX_CLAMP)
n += gfxd_puts(" | G_TX_CLAMP");
else
n += gfxd_puts(" | G_TX_WRAP");
return n;
}
UCFUNC int argfn_tm(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("G_TX_NOMASK");
else
return gfxd_printf("%" PRIi32, v->i);
}
UCFUNC int argfn_ts(const gfxd_value_t *v)
{
if (v->i == 0)
return gfxd_puts("G_TX_NOLOD");
else
return gfxd_printf("%" PRIi32, v->i);
}
UCFUNC int argfn_switch(const gfxd_value_t *v)
{
switch (v->i)
{
case G_ON:
return gfxd_puts("G_ON");
case G_OFF:
return gfxd_puts("G_OFF");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_tile(const gfxd_value_t *v)
{
if (v->i == G_TX_LOADTILE)
return gfxd_puts("G_TX_LOADTILE");
else if (v->i == G_TX_RENDERTILE)
return gfxd_puts("G_TX_RENDERTILE");
else
return gfxd_printf("%" PRIi32, v->i);
}
UCFUNC int argfn_gm(const gfxd_value_t *v)
{
int n = 0;
uint32_t arg = v->u;
if (arg & G_ZBUFFER)
n += gfxd_puts("G_ZBUFFER");
if (arg & G_TEXTURE_ENABLE)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_TEXTURE_ENABLE");
}
if (arg & G_SHADE)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_SHADE");
}
if ((arg & G_CULL_BOTH) == G_CULL_BOTH)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_CULL_BOTH");
}
else
{
if (arg & G_CULL_FRONT)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_CULL_FRONT");
}
if (arg & G_CULL_BACK)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_CULL_BACK");
}
}
if (arg & G_FOG)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_FOG");
}
if (arg & G_LIGHTING)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_LIGHTING");
}
if (arg & G_TEXTURE_GEN)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_TEXTURE_GEN");
}
if (arg & G_TEXTURE_GEN_LINEAR)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_TEXTURE_GEN_LINEAR");
}
if (arg & G_LOD)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_LOD");
}
if (arg & G_SHADING_SMOOTH)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_SHADING_SMOOTH");
}
if (arg & G_CLIPPING)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("G_CLIPPING");
}
arg = arg & ~(G_ZBUFFER | G_TEXTURE_ENABLE | G_SHADE | G_CULL_BOTH |
G_FOG | G_LIGHTING | G_TEXTURE_GEN |
G_TEXTURE_GEN_LINEAR | G_LOD | G_SHADING_SMOOTH |
G_CLIPPING);
if (arg)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_printf("0x%08" PRIX32, arg);
}
return n;
}
UCFUNC int argfn_sftlo(const gfxd_value_t *v)
{
switch (v->i)
{
case G_MDSFT_ALPHACOMPARE:
return gfxd_puts("G_MDSFT_ALPHACOMPARE");
case G_MDSFT_ZSRCSEL:
return gfxd_puts("G_MDSFT_ZSRCSEL");
case G_MDSFT_RENDERMODE:
return gfxd_puts("G_MDSFT_RENDERMODE");
case G_MDSFT_BLENDER:
return gfxd_puts("G_MDSFT_BLENDER");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int rm_mode_str(uint32_t arg)
{
int n = 0;
if (arg & AA_EN)
n += gfxd_puts("AA_EN");
if (arg & Z_CMP)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("Z_CMP");
}
if (arg & Z_UPD)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("Z_UPD");
}
if (arg & IM_RD)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("IM_RD");
}
if (arg & CLR_ON_CVG)
{
if (n > 0)
n += gfxd_puts(" | ");
n += gfxd_puts("CLR_ON_CVG");
}
if (n > 0)
n += gfxd_puts(" | ");
int cvg = arg & 0x00000300;
switch (cvg)
{
case CVG_DST_CLAMP:
n += gfxd_puts("CVG_DST_CLAMP");
break;
case CVG_DST_WRAP:
n += gfxd_puts("CVG_DST_WRAP");
break;
case CVG_DST_FULL:
n += gfxd_puts("CVG_DST_FULL");
break;
case CVG_DST_SAVE:
n += gfxd_puts("CVG_DST_SAVE");
break;
}
int zmode = arg & 0x00000C00;
switch (zmode)
{
case ZMODE_OPA:
n += gfxd_puts(" | ZMODE_OPA");
break;
case ZMODE_INTER:
n += gfxd_puts(" | ZMODE_INTER");
break;
case ZMODE_XLU:
n += gfxd_puts(" | ZMODE_XLU");
break;
case ZMODE_DEC:
n += gfxd_puts(" | ZMODE_DEC");
break;
}
if (arg & CVG_X_ALPHA)
n += gfxd_puts(" | CVG_X_ALPHA");
if (arg & ALPHA_CVG_SEL)
n += gfxd_puts(" | ALPHA_CVG_SEL");
if (arg & FORCE_BL)
n += gfxd_puts(" | FORCE_BL");
return n;
}
UCFUNC int rm_cbl_str(uint32_t arg, int c)
{
int n = 0;
if (c == 2)
arg <<= 2;
int bp = (arg >> 30) & 0b11;
switch (bp)
{
case G_BL_CLR_IN:
n += gfxd_printf("GBL_c%i(G_BL_CLR_IN", c);
break;
case G_BL_CLR_MEM:
n += gfxd_printf("GBL_c%i(G_BL_CLR_MEM", c);
break;
case G_BL_CLR_BL:
n += gfxd_printf("GBL_c%i(G_BL_CLR_BL", c);
break;
case G_BL_CLR_FOG:
n += gfxd_printf("GBL_c%i(G_BL_CLR_FOG", c);
break;
}
int ba = (arg >> 26) & 0b11;
switch (ba)
{
case G_BL_A_IN:
n += gfxd_puts(", G_BL_A_IN");
break;
case G_BL_A_FOG:
n += gfxd_puts(", G_BL_A_FOG");
break;
case G_BL_A_SHADE:
n += gfxd_puts(", G_BL_A_SHADE");
break;
case G_BL_0:
n += gfxd_puts(", G_BL_0");
break;
}
int bm = (arg >> 22) & 0b11;
switch (bm)
{
case G_BL_CLR_IN:
n += gfxd_puts(", G_BL_CLR_IN");
break;
case G_BL_CLR_MEM:
n += gfxd_puts(", G_BL_CLR_MEM");
break;
case G_BL_CLR_BL:
n += gfxd_puts(", G_BL_CLR_BL");
break;
case G_BL_CLR_FOG:
n += gfxd_puts(", G_BL_CLR_FOG");
break;
}
int bb = (arg >> 18) & 0b11;
switch (bb)
{
case G_BL_1MA:
n += gfxd_puts(", G_BL_1MA)");
break;
case G_BL_A_MEM:
n += gfxd_puts(", G_BL_A_MEM)");
break;
case G_BL_1:
n += gfxd_puts(", G_BL_1)");
break;
case G_BL_0:
n += gfxd_puts(", G_BL_0)");
break;
}
return n;
}
struct rm_preset
{
uint32_t rm;
const char * name;
};
static const struct rm_preset rm_presets[] =
{
{G_RM_OPA_SURF, "G_RM_OPA_SURF"},
{G_RM_OPA_SURF2, "G_RM_OPA_SURF2"},
{G_RM_AA_OPA_SURF, "G_RM_AA_OPA_SURF"},
{G_RM_AA_OPA_SURF2, "G_RM_AA_OPA_SURF2"},
{G_RM_RA_OPA_SURF, "G_RM_RA_OPA_SURF"},
{G_RM_RA_OPA_SURF2, "G_RM_RA_OPA_SURF2"},
{G_RM_ZB_OPA_SURF, "G_RM_ZB_OPA_SURF"},
{G_RM_ZB_OPA_SURF2, "G_RM_ZB_OPA_SURF2"},
{G_RM_AA_ZB_OPA_SURF, "G_RM_AA_ZB_OPA_SURF"},
{G_RM_AA_ZB_OPA_SURF2, "G_RM_AA_ZB_OPA_SURF2"},
{G_RM_RA_ZB_OPA_SURF, "G_RM_RA_ZB_OPA_SURF"},
{G_RM_RA_ZB_OPA_SURF2, "G_RM_RA_ZB_OPA_SURF2"},
{G_RM_XLU_SURF, "G_RM_XLU_SURF"},
{G_RM_XLU_SURF2, "G_RM_XLU_SURF2"},
{G_RM_AA_XLU_SURF, "G_RM_AA_XLU_SURF"},
{G_RM_AA_XLU_SURF2, "G_RM_AA_XLU_SURF2"},
{G_RM_ZB_XLU_SURF, "G_RM_ZB_XLU_SURF"},
{G_RM_ZB_XLU_SURF2, "G_RM_ZB_XLU_SURF2"},
{G_RM_AA_ZB_XLU_SURF, "G_RM_AA_ZB_XLU_SURF"},
{G_RM_AA_ZB_XLU_SURF2, "G_RM_AA_ZB_XLU_SURF2"},
{G_RM_ZB_OPA_DECAL, "G_RM_ZB_OPA_DECAL"},
{G_RM_ZB_OPA_DECAL2, "G_RM_ZB_OPA_DECAL2"},
{G_RM_AA_ZB_OPA_DECAL, "G_RM_AA_ZB_OPA_DECAL"},
{G_RM_AA_ZB_OPA_DECAL2, "G_RM_AA_ZB_OPA_DECAL2"},
{G_RM_RA_ZB_OPA_DECAL, "G_RM_RA_ZB_OPA_DECAL"},
{G_RM_RA_ZB_OPA_DECAL2, "G_RM_RA_ZB_OPA_DECAL2"},
{G_RM_ZB_XLU_DECAL, "G_RM_ZB_XLU_DECAL"},
{G_RM_ZB_XLU_DECAL2, "G_RM_ZB_XLU_DECAL2"},
{G_RM_AA_ZB_XLU_DECAL, "G_RM_AA_ZB_XLU_DECAL"},
{G_RM_AA_ZB_XLU_DECAL2, "G_RM_AA_ZB_XLU_DECAL2"},
{G_RM_AA_ZB_OPA_INTER, "G_RM_AA_ZB_OPA_INTER"},
{G_RM_AA_ZB_OPA_INTER2, "G_RM_AA_ZB_OPA_INTER2"},
{G_RM_RA_ZB_OPA_INTER, "G_RM_RA_ZB_OPA_INTER"},
{G_RM_RA_ZB_OPA_INTER2, "G_RM_RA_ZB_OPA_INTER2"},
{G_RM_AA_ZB_XLU_INTER, "G_RM_AA_ZB_XLU_INTER"},
{G_RM_AA_ZB_XLU_INTER2, "G_RM_AA_ZB_XLU_INTER2"},
{G_RM_AA_XLU_LINE, "G_RM_AA_XLU_LINE"},
{G_RM_AA_XLU_LINE2, "G_RM_AA_XLU_LINE2"},
{G_RM_AA_ZB_XLU_LINE, "G_RM_AA_ZB_XLU_LINE"},
{G_RM_AA_ZB_XLU_LINE2, "G_RM_AA_ZB_XLU_LINE2"},
{G_RM_AA_DEC_LINE, "G_RM_AA_DEC_LINE"},
{G_RM_AA_DEC_LINE2, "G_RM_AA_DEC_LINE2"},
{G_RM_AA_ZB_DEC_LINE, "G_RM_AA_ZB_DEC_LINE"},
{G_RM_AA_ZB_DEC_LINE2, "G_RM_AA_ZB_DEC_LINE2"},
{G_RM_TEX_EDGE, "G_RM_TEX_EDGE"},
{G_RM_TEX_EDGE2, "G_RM_TEX_EDGE2"},
{G_RM_AA_TEX_EDGE, "G_RM_AA_TEX_EDGE"},
{G_RM_AA_TEX_EDGE2, "G_RM_AA_TEX_EDGE2"},
{G_RM_AA_ZB_TEX_EDGE, "G_RM_AA_ZB_TEX_EDGE"},
{G_RM_AA_ZB_TEX_EDGE2, "G_RM_AA_ZB_TEX_EDGE2"},
{G_RM_AA_ZB_TEX_INTER, "G_RM_AA_ZB_TEX_INTER"},
{G_RM_AA_ZB_TEX_INTER2, "G_RM_AA_ZB_TEX_INTER2"},
{G_RM_AA_SUB_SURF, "G_RM_AA_SUB_SURF"},
{G_RM_AA_SUB_SURF2, "G_RM_AA_SUB_SURF2"},
{G_RM_AA_ZB_SUB_SURF, "G_RM_AA_ZB_SUB_SURF"},
{G_RM_AA_ZB_SUB_SURF2, "G_RM_AA_ZB_SUB_SURF2"},
{G_RM_PCL_SURF, "G_RM_PCL_SURF"},
{G_RM_PCL_SURF2, "G_RM_PCL_SURF2"},
{G_RM_AA_PCL_SURF, "G_RM_AA_PCL_SURF"},
{G_RM_AA_PCL_SURF2, "G_RM_AA_PCL_SURF2"},
{G_RM_ZB_PCL_SURF, "G_RM_ZB_PCL_SURF"},
{G_RM_ZB_PCL_SURF2, "G_RM_ZB_PCL_SURF2"},
{G_RM_AA_ZB_PCL_SURF, "G_RM_AA_ZB_PCL_SURF"},
{G_RM_AA_ZB_PCL_SURF2, "G_RM_AA_ZB_PCL_SURF2"},
{G_RM_AA_OPA_TERR, "G_RM_AA_OPA_TERR"},
{G_RM_AA_OPA_TERR2, "G_RM_AA_OPA_TERR2"},
{G_RM_AA_ZB_OPA_TERR, "G_RM_AA_ZB_OPA_TERR"},
{G_RM_AA_ZB_OPA_TERR2, "G_RM_AA_ZB_OPA_TERR2"},
{G_RM_AA_TEX_TERR, "G_RM_AA_TEX_TERR"},
{G_RM_AA_TEX_TERR2, "G_RM_AA_TEX_TERR2"},
{G_RM_AA_ZB_TEX_TERR, "G_RM_AA_ZB_TEX_TERR"},
{G_RM_AA_ZB_TEX_TERR2, "G_RM_AA_ZB_TEX_TERR2"},
{G_RM_AA_SUB_TERR, "G_RM_AA_SUB_TERR"},
{G_RM_AA_SUB_TERR2, "G_RM_AA_SUB_TERR2"},
{G_RM_AA_ZB_SUB_TERR, "G_RM_AA_ZB_SUB_TERR"},
{G_RM_AA_ZB_SUB_TERR2, "G_RM_AA_ZB_SUB_TERR2"},
{G_RM_CLD_SURF, "G_RM_CLD_SURF"},
{G_RM_CLD_SURF2, "G_RM_CLD_SURF2"},
{G_RM_ZB_CLD_SURF, "G_RM_ZB_CLD_SURF"},
{G_RM_ZB_CLD_SURF2, "G_RM_ZB_CLD_SURF2"},
{G_RM_ZB_OVL_SURF, "G_RM_ZB_OVL_SURF"},
{G_RM_ZB_OVL_SURF2, "G_RM_ZB_OVL_SURF2"},
{G_RM_ADD, "G_RM_ADD"},
{G_RM_ADD2, "G_RM_ADD2"},
{G_RM_VISCVG, "G_RM_VISCVG"},
{G_RM_VISCVG2, "G_RM_VISCVG2"},
{G_RM_OPA_CI, "G_RM_OPA_CI"},
{G_RM_OPA_CI2, "G_RM_OPA_CI2"},
{G_RM_RA_SPRITE, "G_RM_RA_SPRITE"},
{G_RM_RA_SPRITE2, "G_RM_RA_SPRITE2"},
};
static const struct rm_preset bl1_presets[] =
{
{G_RM_FOG_SHADE_A, "G_RM_FOG_SHADE_A"},
{G_RM_FOG_PRIM_A, "G_RM_FOG_PRIM_A"},
{G_RM_PASS, "G_RM_PASS"},
{G_RM_NOOP, "G_RM_NOOP"},
};
static const struct rm_preset bl2_presets[] =
{
{G_RM_NOOP2, "G_RM_NOOP2"},
};
UCFUNC int othermodelo_str(uint32_t arg, uint32_t which)
{
int n = 0;
uint32_t rm_c1_mask = MDMASK_RM_C1;
uint32_t rm_c2_mask = MDMASK_RM_C2;
uint32_t rm_mode_lo = MDMASK_RM_LO;
uint32_t rm_mask = rm_c1_mask | rm_c2_mask | rm_mode_lo;
const struct rm_preset *pre_c1 = NULL;
const struct rm_preset *pre_c2 = NULL;
int n_rm_presets = sizeof(rm_presets) / sizeof(*rm_presets);
for (int i = 0; i < n_rm_presets; i++)
{
const struct rm_preset *pre = &rm_presets[i];
uint32_t pre_extra = pre->rm & ~rm_mask;
uint32_t rm_c1 = arg & (rm_c1_mask | rm_mode_lo | pre_extra);
if (!pre_c1 && rm_c1 == pre->rm)
pre_c1 = pre;
uint32_t rm_c2 = arg & (rm_c2_mask | rm_mode_lo | pre_extra);
if (!pre_c2 && rm_c2 == pre->rm)
pre_c2 = pre;
}
if (!pre_c1 || !pre_c2 || pre_c1 + 1 != pre_c2)
{
int n_bl1_presets = sizeof(bl1_presets) / sizeof(*bl1_presets);
for (int i = 0; i < n_bl1_presets; i++)
{
const struct rm_preset *pre = &bl1_presets[i];
uint32_t pre_extra = pre->rm & ~rm_mask;
uint32_t rm_c1 = arg & (rm_c1_mask | pre_extra);
if (rm_c1 == pre->rm)
{
pre_c1 = pre;
break;
}
}
int n_bl2_presets = sizeof(bl2_presets) / sizeof(*bl2_presets);
for (int i = 0; i < n_bl2_presets; i++)
{
const struct rm_preset *pre = &bl2_presets[i];
uint32_t pre_extra = pre->rm & ~rm_mask;
uint32_t rm_c2 = arg & (rm_c2_mask | pre_extra);
if (rm_c2 == pre->rm)
{
pre_c2 = pre;
break;
}
}
}
uint32_t pre_rm = 0;
if (pre_c1)
pre_rm |= pre_c1->rm;
if (pre_c2)
pre_rm |= pre_c2->rm;
uint32_t ac_mask = MDMASK(ALPHACOMPARE);
if (((arg & ~pre_rm) | which) & ac_mask)
{
uint32_t ac = arg & ac_mask;
switch (ac)
{
case G_AC_NONE:
n += gfxd_puts("G_AC_NONE");
break;
case G_AC_THRESHOLD:
n += gfxd_puts("G_AC_THRESHOLD");
break;
case G_AC_DITHER:
n += gfxd_puts("G_AC_DITHER");
break;
default:
n += gfxd_printf("0x%08" PRIX32, ac);
break;
}
}
uint32_t zs_mask = MDMASK(ZSRCSEL);
if (((arg & ~pre_rm) | which) & zs_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t zs = arg & zs_mask;
switch (zs)
{
case G_ZS_PIXEL:
n += gfxd_puts("G_ZS_PIXEL");
break;
case G_ZS_PRIM:
n += gfxd_puts("G_ZS_PRIM");
break;
default:
n += gfxd_printf("0x%08" PRIX32, zs);
break;
}
}
uint32_t rm = arg & (rm_mask | pre_rm);
if (((arg & ~pre_rm) | which) & rm_mode_lo)
{
if (n > 0)
n += gfxd_puts(" | ");
n += rm_mode_str(rm);
}
int c = 0;
if (which & rm_c1_mask)
c |= 1;
if (which & rm_c2_mask)
c |= 2;
if (c & 1 || (c == 0 && arg & rm_c1_mask))
{
if (n > 0)
n += gfxd_puts(" | ");
if (pre_c1)
n += gfxd_printf("%s", pre_c1->name);
else
n += rm_cbl_str(rm, 1);
}
if (c & 2 || (c == 0 && arg & rm_c2_mask))
{
if (n > 0)
n += gfxd_puts(" | ");
if (pre_c2)
n += gfxd_printf("%s", pre_c2->name);
else
n += rm_cbl_str(rm, 2);
}
uint32_t unk_mask = ~(rm_mask | ac_mask | zs_mask);
if (arg & unk_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t unk = arg & unk_mask;
n += gfxd_printf("0x%08" PRIX32, unk);
}
return n;
}
UCFUNC int argfn_ac(const gfxd_value_t *v)
{
return othermodelo_str(v->u, MDMASK(ALPHACOMPARE));
}
UCFUNC int argfn_zs(const gfxd_value_t *v)
{
return othermodelo_str(v->u, MDMASK(ZSRCSEL));
}
UCFUNC int argfn_rm1(const gfxd_value_t *v)
{
return othermodelo_str(v->u, MDMASK_RM_C1);
}
UCFUNC int argfn_rm2(const gfxd_value_t *v)
{
return othermodelo_str(v->u, MDMASK_RM_C2);
}
UCFUNC int argfn_othermodelo(const gfxd_value_t *v)
{
uint32_t mask = MDMASK(ALPHACOMPARE) | MDMASK(ZSRCSEL) | MDMASK_RM_C1 |
MDMASK_RM_C2;
return othermodelo_str(v->u, mask);
}
UCFUNC int argfn_sfthi(const gfxd_value_t *v)
{
switch (v->i)
{
case G_MDSFT_ALPHADITHER:
return gfxd_puts("G_MDSFT_ALPHADITHER");
case G_MDSFT_RGBDITHER:
return gfxd_puts("G_MDSFT_RGBDITHER");
case G_MDSFT_COMBKEY:
return gfxd_puts("G_MDSFT_COMBKEY");
case G_MDSFT_TEXTCONV:
return gfxd_puts("G_MDSFT_TEXTCONV");
case G_MDSFT_TEXTFILT:
return gfxd_puts("G_MDSFT_TEXTFILT");
case G_MDSFT_TEXTLUT:
return gfxd_puts("G_MDSFT_TEXTLUT");
case G_MDSFT_TEXTLOD:
return gfxd_puts("G_MDSFT_TEXTLOD");
case G_MDSFT_TEXTDETAIL:
return gfxd_puts("G_MDSFT_TEXTDETAIL");
case G_MDSFT_TEXTPERSP:
return gfxd_puts("G_MDSFT_TEXTPERSP");
case G_MDSFT_CYCLETYPE:
return gfxd_puts("G_MDSFT_CYCLETYPE");
case G_MDSFT_PIPELINE:
return gfxd_puts("G_MDSFT_PIPELINE");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int othermodehi_str(uint32_t arg, uint32_t which)
{
int n = 0;
uint32_t ad_mask = MDMASK(ALPHADITHER);
if ((arg | which) & ad_mask)
{
uint32_t ad = arg & ad_mask;
switch (ad)
{
case G_AD_PATTERN:
n += gfxd_puts("G_AD_PATTERN");
break;
case G_AD_NOTPATTERN:
n += gfxd_puts("G_AD_NOTPATTERN");
break;
case G_AD_NOISE:
n += gfxd_puts("G_AD_NOISE");
break;
case G_AD_DISABLE:
n += gfxd_puts("G_AD_DISABLE");
break;
default:
n += gfxd_printf("0x%08" PRIX32, ad);
break;
}
}
uint32_t cd_mask = MDMASK(RGBDITHER);
if ((arg | which) & cd_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t cd = arg & cd_mask;
switch (cd)
{
case G_CD_MAGICSQ:
n += gfxd_puts("G_CD_MAGICSQ");
break;
case G_CD_BAYER:
n += gfxd_puts("G_CD_BAYER");
break;
case G_CD_NOISE:
n += gfxd_puts("G_CD_NOISE");
break;
case G_CD_DISABLE:
n += gfxd_puts("G_CD_DISABLE");
break;
default:
n += gfxd_printf("0x%08" PRIX32, cd);
break;
}
}
uint32_t ck_mask = MDMASK(COMBKEY);
if ((arg | which) & ck_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t ck = arg & ck_mask;
switch (ck)
{
case G_CK_NONE:
n += gfxd_puts("G_CK_NONE");
break;
case G_CK_KEY:
n += gfxd_puts("G_CK_KEY");
break;
default:
n += gfxd_printf("0x%08" PRIX32, ck);
break;
}
}
uint32_t tc_mask = MDMASK(TEXTCONV);
if ((arg | which) & tc_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t tc = arg & tc_mask;
switch (tc)
{
case G_TC_CONV:
n += gfxd_puts("G_TC_CONV");
break;
case G_TC_FILTCONV:
n += gfxd_puts("G_TC_FILTCONV");
break;
case G_TC_FILT:
n += gfxd_puts("G_TC_FILT");
break;
default:
n += gfxd_printf("0x%08" PRIX32, tc);
break;
}
}
uint32_t tf_mask = MDMASK(TEXTFILT);
if ((arg | which) & tf_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t tf = arg & tf_mask;
switch (tf)
{
case G_TF_POINT:
n += gfxd_puts("G_TF_POINT");
break;
case G_TF_BILERP:
n += gfxd_puts("G_TF_BILERP");
break;
case G_TF_AVERAGE:
n += gfxd_puts("G_TF_AVERAGE");
break;
default:
n += gfxd_printf("0x%08" PRIX32, tf);
break;
}
}
uint32_t tt_mask = MDMASK(TEXTLUT);
if ((arg | which) & tt_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t tt = arg & tt_mask;
switch (tt)
{
case G_TT_NONE:
n += gfxd_puts("G_TT_NONE");
break;
case G_TT_RGBA16:
n += gfxd_puts("G_TT_RGBA16");
break;
case G_TT_IA16:
n += gfxd_puts("G_TT_IA16");
break;
default:
n += gfxd_printf("0x%08" PRIX32, tt);
break;
}
}
uint32_t tl_mask = MDMASK(TEXTLOD);
if ((arg | which) & tl_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t tl = arg & tl_mask;
switch (tl)
{
case G_TL_TILE:
n += gfxd_puts("G_TL_TILE");
break;
case G_TL_LOD:
n += gfxd_puts("G_TL_LOD");
break;
default:
n += gfxd_printf("0x%08" PRIX32, tl);
break;
}
}
uint32_t td_mask = MDMASK(TEXTDETAIL);
if ((arg | which) & td_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t td = arg & td_mask;
switch (td)
{
case G_TD_CLAMP:
n += gfxd_puts("G_TD_CLAMP");
break;
case G_TD_SHARPEN:
n += gfxd_puts("G_TD_SHARPEN");
break;
case G_TD_DETAIL:
n += gfxd_puts("G_TD_DETAIL");
break;
default:
n += gfxd_printf("0x%08" PRIX32, td);
break;
}
}
uint32_t tp_mask = MDMASK(TEXTPERSP);
if ((arg | which) & tp_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t tp = arg & tp_mask;
switch (tp)
{
case G_TP_NONE:
n += gfxd_puts("G_TP_NONE");
break;
case G_TP_PERSP:
n += gfxd_puts("G_TP_PERSP");
break;
default:
n += gfxd_printf("0x%08" PRIX32, tp);
break;
}
}
uint32_t cyc_mask = MDMASK(CYCLETYPE);
if ((arg | which) & cyc_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t cyc = arg & cyc_mask;
switch (cyc)
{
case G_CYC_1CYCLE:
n += gfxd_puts("G_CYC_1CYCLE");
break;
case G_CYC_2CYCLE:
n += gfxd_puts("G_CYC_2CYCLE");
break;
case G_CYC_COPY:
n += gfxd_puts("G_CYC_COPY");
break;
case G_CYC_FILL:
n += gfxd_puts("G_CYC_FILL");
break;
default:
n += gfxd_printf("0x%08" PRIX32, cyc);
break;
}
}
uint32_t pm_mask = MDMASK(PIPELINE);
if ((arg | which) & pm_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t pm = arg & pm_mask;
switch (pm)
{
case G_PM_NPRIMITIVE:
n += gfxd_puts("G_PM_NPRIMITIVE");
break;
case G_PM_1PRIMITIVE:
n += gfxd_puts("G_PM_1PRIMITIVE");
break;
default:
n += gfxd_printf("0x%08" PRIX32, pm);
break;
}
}
uint32_t unk_mask = ~(ad_mask | cd_mask | ck_mask | tc_mask | tf_mask |
tt_mask | tl_mask | td_mask | tp_mask |
cyc_mask | pm_mask);
if (arg & unk_mask)
{
if (n > 0)
n += gfxd_puts(" | ");
uint32_t unk = arg & unk_mask;
n += gfxd_printf("0x%08" PRIX32, unk);
}
return n;
}
UCFUNC int argfn_ad(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(ALPHADITHER));
}
UCFUNC int argfn_cd(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(RGBDITHER));
}
UCFUNC int argfn_ck(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(COMBKEY));
}
UCFUNC int argfn_tc(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTCONV));
}
UCFUNC int argfn_tf(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTFILT));
}
UCFUNC int argfn_tt(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTLUT));
}
UCFUNC int argfn_tl(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTLOD));
}
UCFUNC int argfn_td(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTDETAIL));
}
UCFUNC int argfn_tp(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(TEXTPERSP));
}
UCFUNC int argfn_cyc(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(CYCLETYPE));
}
UCFUNC int argfn_pm(const gfxd_value_t *v)
{
return othermodehi_str(v->u, MDMASK(PIPELINE));
}
UCFUNC int argfn_othermodehi(const gfxd_value_t *v)
{
uint32_t mask = MDMASK(ALPHADITHER) |
MDMASK(RGBDITHER) |
MDMASK(COMBKEY) |
MDMASK(TEXTCONV) |
MDMASK(TEXTFILT) |
MDMASK(TEXTLUT) |
MDMASK(TEXTLOD) |
MDMASK(TEXTDETAIL) |
MDMASK(TEXTPERSP) |
MDMASK(CYCLETYPE) |
MDMASK(PIPELINE);
return othermodehi_str(v->u, mask);
}
UCFUNC int argfn_cv(const gfxd_value_t *v)
{
switch (v->i)
{
case G_CV_K0:
return gfxd_puts("G_CV_K0");
case G_CV_K1:
return gfxd_puts("G_CV_K1");
case G_CV_K2:
return gfxd_puts("G_CV_K2");
case G_CV_K3:
return gfxd_puts("G_CV_K3");
case G_CV_K4:
return gfxd_puts("G_CV_K4");
case G_CV_K5:
return gfxd_puts("G_CV_K5");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_ccmuxa(const gfxd_value_t *v)
{
switch (v->i)
{
case G_CCMUX_COMBINED:
return gfxd_puts("COMBINED");
case G_CCMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_CCMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_CCMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_CCMUX_SHADE:
return gfxd_puts("SHADE");
case G_CCMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_CCMUX_1:
return gfxd_puts("1");
case G_CCMUX_NOISE:
return gfxd_puts("NOISE");
default:
return gfxd_puts("0");
}
}
UCFUNC int argfn_ccmuxb(const gfxd_value_t *v)
{
switch (v->i)
{
case G_CCMUX_COMBINED:
return gfxd_puts("COMBINED");
case G_CCMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_CCMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_CCMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_CCMUX_SHADE:
return gfxd_puts("SHADE");
case G_CCMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_CCMUX_CENTER:
return gfxd_puts("CENTER");
case G_CCMUX_K4:
return gfxd_puts("K4");
default:
return gfxd_puts("0");
}
}
UCFUNC int argfn_ccmuxc(const gfxd_value_t *v)
{
switch (v->i)
{
case G_CCMUX_COMBINED:
return gfxd_puts("COMBINED");
case G_CCMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_CCMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_CCMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_CCMUX_SHADE:
return gfxd_puts("SHADE");
case G_CCMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_CCMUX_SCALE:
return gfxd_puts("SCALE");
case G_CCMUX_COMBINED_ALPHA:
return gfxd_puts("COMBINED_ALPHA");
case G_CCMUX_TEXEL0_ALPHA:
return gfxd_puts("TEXEL0_ALPHA");
case G_CCMUX_TEXEL1_ALPHA:
return gfxd_puts("TEXEL1_ALPHA");
case G_CCMUX_PRIMITIVE_ALPHA:
return gfxd_puts("PRIMITIVE_ALPHA");
case G_CCMUX_SHADE_ALPHA:
return gfxd_puts("SHADE_ALPHA");
case G_CCMUX_ENV_ALPHA:
return gfxd_puts("ENV_ALPHA");
case G_CCMUX_LOD_FRACTION:
return gfxd_puts("LOD_FRACTION");
case G_CCMUX_PRIM_LOD_FRAC:
return gfxd_puts("PRIM_LOD_FRAC");
case G_CCMUX_K5:
return gfxd_puts("K5");
default:
return gfxd_puts("0");
}
}
UCFUNC int argfn_ccmuxd(const gfxd_value_t *v)
{
switch (v->i)
{
case G_CCMUX_COMBINED:
return gfxd_puts("COMBINED");
case G_CCMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_CCMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_CCMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_CCMUX_SHADE:
return gfxd_puts("SHADE");
case G_CCMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_CCMUX_1:
return gfxd_puts("1");
default:
return gfxd_puts("0");
}
}
UCFUNC int argfn_acmuxabd(const gfxd_value_t *v)
{
switch (v->i)
{
case G_ACMUX_COMBINED:
return gfxd_puts("COMBINED");
case G_ACMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_ACMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_ACMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_ACMUX_SHADE:
return gfxd_puts("SHADE");
case G_ACMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_ACMUX_1:
return gfxd_puts("1");
default:
return gfxd_puts("0");
}
}
UCFUNC int argfn_acmuxc(const gfxd_value_t *v)
{
switch (v->i)
{
case G_ACMUX_LOD_FRACTION:
return gfxd_puts("LOD_FRACTION");
case G_ACMUX_TEXEL0:
return gfxd_puts("TEXEL0");
case G_ACMUX_TEXEL1:
return gfxd_puts("TEXEL1");
case G_ACMUX_PRIMITIVE:
return gfxd_puts("PRIMITIVE");
case G_ACMUX_SHADE:
return gfxd_puts("SHADE");
case G_ACMUX_ENVIRONMENT:
return gfxd_puts("ENVIRONMENT");
case G_ACMUX_PRIM_LOD_FRAC:
return gfxd_puts("PRIM_LOD_FRAC");
default:
return gfxd_puts("0");
}
}
struct cc_mode
{
int a;
int b;
int c;
int d;
int Aa;
int Ab;
int Ac;
int Ad;
};
struct cc_preset
{
struct cc_mode mode;
const char * name;
};
#define CC_(a,b,c,d,Aa,Ab,Ac,Ad) \
{ \
G_CCMUX_##a, G_CCMUX_##b, \
G_CCMUX_##c, G_CCMUX_##d, \
G_ACMUX_##Aa, G_ACMUX_##Ab, \
G_ACMUX_##Ac, G_ACMUX_##Ad \
}
#define CC(m) CC_(m)
static const struct cc_preset cc_presets[] =
{
{CC(G_CC_MODULATEI), "G_CC_MODULATEI"},
{CC(G_CC_MODULATEIA), "G_CC_MODULATEIA"},
{CC(G_CC_MODULATEIDECALA), "G_CC_MODULATEIDECALA"},
{CC(G_CC_MODULATERGB), "G_CC_MODULATERGB"},
{CC(G_CC_MODULATERGBA), "G_CC_MODULATERGBA"},
{CC(G_CC_MODULATERGBDECALA), "G_CC_MODULATERGBDECALA"},
{CC(G_CC_MODULATEI_PRIM), "G_CC_MODULATEI_PRIM"},
{CC(G_CC_MODULATEIA_PRIM), "G_CC_MODULATEIA_PRIM"},
{CC(G_CC_MODULATEIDECALA_PRIM), "G_CC_MODULATEIDECALA_PRIM"},
{CC(G_CC_MODULATERGB_PRIM), "G_CC_MODULATERGB_PRIM"},
{CC(G_CC_MODULATERGBA_PRIM), "G_CC_MODULATERGBA_PRIM"},
{CC(G_CC_MODULATERGBDECALA_PRIM), "G_CC_MODULATERGBDECALA_PRIM"},
{CC(G_CC_DECALRGB), "G_CC_DECALRGB"},
{CC(G_CC_DECALRGBA), "G_CC_DECALRGBA"},
{CC(G_CC_BLENDI), "G_CC_BLENDI"},
{CC(G_CC_BLENDIA), "G_CC_BLENDIA"},
{CC(G_CC_BLENDIDECALA), "G_CC_BLENDIDECALA"},
{CC(G_CC_BLENDRGBA), "G_CC_BLENDRGBA"},
{CC(G_CC_BLENDRGBDECALA), "G_CC_BLENDRGBDECALA"},
{CC(G_CC_REFLECTRGB), "G_CC_REFLECTRGB"},
{CC(G_CC_REFLECTRGBDECALA), "G_CC_REFLECTRGBDECALA"},
{CC(G_CC_HILITERGB), "G_CC_HILITERGB"},
{CC(G_CC_HILITERGBA), "G_CC_HILITERGBA"},
{CC(G_CC_HILITERGBDECALA), "G_CC_HILITERGBDECALA"},
{CC(G_CC_1CYUV2RGB), "G_CC_1CYUV2RGB"},
{CC(G_CC_PRIMITIVE), "G_CC_PRIMITIVE"},
{CC(G_CC_SHADE), "G_CC_SHADE"},
{CC(G_CC_ADDRGB), "G_CC_ADDRGB"},
{CC(G_CC_ADDRGBDECALA), "G_CC_ADDRGBDECALA"},
{CC(G_CC_SHADEDECALA), "G_CC_SHADEDECALA"},
{CC(G_CC_BLENDPE), "G_CC_BLENDPE"},
{CC(G_CC_BLENDPEDECALA), "G_CC_BLENDPEDECALA"},
{CC(G_CC_TRILERP), "G_CC_TRILERP"},
{CC(G_CC_TEMPLERP), "G_CC_TEMPLERP"},
{CC(G_CC_INTERFERENCE), "G_CC_INTERFERENCE"},
{CC(_G_CC_BLENDPE), "_G_CC_BLENDPE"},
{CC(_G_CC_BLENDPEDECALA), "_G_CC_BLENDPEDECALA"},
{CC(_G_CC_SPARSEST), "_G_CC_SPARSEST"},
{CC(_G_CC_TWOCOLORTEX), "_G_CC_TWOCOLORTEX"},
{CC(G_CC_MODULATEI2), "G_CC_MODULATEI2"},
{CC(G_CC_MODULATEIA2), "G_CC_MODULATEIA2"},
{CC(G_CC_MODULATERGB2), "G_CC_MODULATERGB2"},
{CC(G_CC_MODULATERGBA2), "G_CC_MODULATERGBA2"},
{CC(G_CC_MODULATEI_PRIM2), "G_CC_MODULATEI_PRIM2"},
{CC(G_CC_MODULATEIA_PRIM2), "G_CC_MODULATEIA_PRIM2"},
{CC(G_CC_MODULATERGB_PRIM2), "G_CC_MODULATERGB_PRIM2"},
{CC(G_CC_MODULATERGBA_PRIM2), "G_CC_MODULATERGBA_PRIM2"},
{CC(G_CC_DECALRGB2), "G_CC_DECALRGB2"},
{CC(G_CC_BLENDI2), "G_CC_BLENDI2"},
{CC(G_CC_BLENDIA2), "G_CC_BLENDIA2"},
{CC(G_CC_HILITERGB2), "G_CC_HILITERGB2"},
{CC(G_CC_HILITERGBA2), "G_CC_HILITERGBA2"},
{CC(G_CC_HILITERGBDECALA2), "G_CC_HILITERGBDECALA2"},
{CC(G_CC_HILITERGBPASSA2), "G_CC_HILITERGBPASSA2"},
{CC(G_CC_CHROMA_KEY2), "G_CC_CHROMA_KEY2"},
{CC(G_CC_YUV2RGB), "G_CC_YUV2RGB"},
{CC(G_CC_PASS2), "G_CC_PASS2"},
};
#undef CC_
#undef CC
UCFUNC int argfn_ccpre(const gfxd_value_t *v)
{
return gfxd_printf("%s", cc_presets[v->i].name);
}
UCFUNC int argfn_sc(const gfxd_value_t *v)
{
switch (v->i)
{
case G_SC_NON_INTERLACE:
return gfxd_puts("G_SC_NON_INTERLACE");
case G_SC_EVEN_INTERLACE:
return gfxd_puts("G_SC_EVEN_INTERLACE");
case G_SC_ODD_INTERLACE:
return gfxd_puts("G_SC_ODD_INTERLACE");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
#if defined(F3DEX_GBI) || defined(F3DEX_GBI_2)
UCFUNC int argfn_bz(const gfxd_value_t *v)
{
switch (v->i)
{
case G_BZ_PERSP:
return gfxd_puts("G_BZ_PERSP");
default:
return gfxd_puts("G_BZ_ORTHO");
}
}
#endif
UCFUNC int argfn_dlf(const gfxd_value_t *v)
{
switch (v->i)
{
case G_DL_PUSH:
return gfxd_puts("G_DL_PUSH");
case G_DL_NOPUSH:
return gfxd_puts("G_DL_NOPUSH");
default:
return gfxd_printf("%" PRIi32, v->i);;
}
}
UCFUNC int argfn_mp(const gfxd_value_t *v)
{
int n = 0;
if (v->u & G_MTX_PUSH)
n += gfxd_puts("G_MTX_PUSH");
else
n += gfxd_puts("G_MTX_NOPUSH");
if (v->u & G_MTX_LOAD)
n += gfxd_puts(" | G_MTX_LOAD");
else
n += gfxd_puts(" | G_MTX_MUL");
if (v->u & G_MTX_PROJECTION)
n += gfxd_puts(" | G_MTX_PROJECTION");
else
n += gfxd_puts(" | G_MTX_MODELVIEW");
for (int i = 3; i < 8; i++)
if (v->u & (1 << i))
n += gfxd_printf(" | 0x%02x", 1 << i);
return n;
}
UCFUNC int argfn_ms(const gfxd_value_t *v)
{
switch (v->i)
{
case G_MTX_MODELVIEW:
return gfxd_puts("G_MTX_MODELVIEW");
case G_MTX_PROJECTION:
return gfxd_puts("G_MTX_PROJECTION");
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_mw(const gfxd_value_t *v)
{
switch (v->i)
{
case G_MW_MATRIX:
return gfxd_puts("G_MW_MATRIX");
case G_MW_NUMLIGHT:
return gfxd_puts("G_MW_NUMLIGHT");
case G_MW_CLIP:
return gfxd_puts("G_MW_CLIP");
case G_MW_SEGMENT:
return gfxd_puts("G_MW_SEGMENT");
case G_MW_FOG:
return gfxd_puts("G_MW_FOG");
case G_MW_LIGHTCOL:
return gfxd_puts("G_MW_LIGHTCOL");
case G_MW_PERSPNORM:
return gfxd_puts("G_MW_PERSPNORM");
#if defined(F3D_GBI) || defined(F3DEX_GBI)
case G_MW_POINTS:
return gfxd_puts("G_MW_POINTS");
#endif
#if defined(F3DEX_GBI_2)
case G_MW_FORCEMTX:
return gfxd_puts("G_MW_FORCEMTX");
#endif
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_mwo_clip(const gfxd_value_t *v)
{
switch (v->u)
{
case G_MWO_CLIP_RNX:
return gfxd_puts("G_MWO_CLIP_RNX");
case G_MWO_CLIP_RNY:
return gfxd_puts("G_MWO_CLIP_RNY");
case G_MWO_CLIP_RPX:
return gfxd_puts("G_MWO_CLIP_RPX");
case G_MWO_CLIP_RPY:
return gfxd_puts("G_MWO_CLIP_RPY");
default:
return gfxd_printf("0x%04" PRIX32, v->u);
}
}
UCFUNC int argfn_mwo_lightcol(const gfxd_value_t *v)
{
switch (v->u)
{
case G_MWO_aLIGHT_1:
return gfxd_puts("G_MWO_aLIGHT_1");
case G_MWO_bLIGHT_1:
return gfxd_puts("G_MWO_bLIGHT_1");
case G_MWO_aLIGHT_2:
return gfxd_puts("G_MWO_aLIGHT_2");
case G_MWO_bLIGHT_2:
return gfxd_puts("G_MWO_bLIGHT_2");
case G_MWO_aLIGHT_3:
return gfxd_puts("G_MWO_aLIGHT_3");
case G_MWO_bLIGHT_3:
return gfxd_puts("G_MWO_bLIGHT_3");
case G_MWO_aLIGHT_4:
return gfxd_puts("G_MWO_aLIGHT_4");
case G_MWO_bLIGHT_4:
return gfxd_puts("G_MWO_bLIGHT_4");
case G_MWO_aLIGHT_5:
return gfxd_puts("G_MWO_aLIGHT_5");
case G_MWO_bLIGHT_5:
return gfxd_puts("G_MWO_bLIGHT_5");
case G_MWO_aLIGHT_6:
return gfxd_puts("G_MWO_aLIGHT_6");
case G_MWO_bLIGHT_6:
return gfxd_puts("G_MWO_bLIGHT_6");
case G_MWO_aLIGHT_7:
return gfxd_puts("G_MWO_aLIGHT_7");
case G_MWO_bLIGHT_7:
return gfxd_puts("G_MWO_bLIGHT_7");
case G_MWO_aLIGHT_8:
return gfxd_puts("G_MWO_aLIGHT_8");
case G_MWO_bLIGHT_8:
return gfxd_puts("G_MWO_bLIGHT_8");
default:
return gfxd_printf("0x%04" PRIX32, v->u);
}
}
UCFUNC int argfn_lightnum(const gfxd_value_t *v)
{
return gfxd_printf("LIGHT_%" PRIi32, v->i);
}
UCFUNC int argfn_lightsn(const gfxd_value_t *v)
{
return gfxd_printf("*(Lightsn *)0x%08" PRIX32, v->u);
}
UCFUNC int argfn_mwo_matrix(const gfxd_value_t *v)
{
switch (v->u)
{
case G_MWO_MATRIX_XX_XY_I:
return gfxd_puts("G_MWO_MATRIX_XX_XY_I");
case G_MWO_MATRIX_XZ_XW_I:
return gfxd_puts("G_MWO_MATRIX_XZ_XW_I");
case G_MWO_MATRIX_YX_YY_I:
return gfxd_puts("G_MWO_MATRIX_YX_YY_I");
case G_MWO_MATRIX_YZ_YW_I:
return gfxd_puts("G_MWO_MATRIX_YZ_YW_I");
case G_MWO_MATRIX_ZX_ZY_I:
return gfxd_puts("G_MWO_MATRIX_ZX_ZY_I");
case G_MWO_MATRIX_ZZ_ZW_I:
return gfxd_puts("G_MWO_MATRIX_ZZ_ZW_I");
case G_MWO_MATRIX_WX_WY_I:
return gfxd_puts("G_MWO_MATRIX_WX_WY_I");
case G_MWO_MATRIX_WZ_WW_I:
return gfxd_puts("G_MWO_MATRIX_WZ_WW_I");
case G_MWO_MATRIX_XX_XY_F:
return gfxd_puts("G_MWO_MATRIX_XX_XY_F");
case G_MWO_MATRIX_XZ_XW_F:
return gfxd_puts("G_MWO_MATRIX_XZ_XW_F");
case G_MWO_MATRIX_YX_YY_F:
return gfxd_puts("G_MWO_MATRIX_YX_YY_F");
case G_MWO_MATRIX_YZ_YW_F:
return gfxd_puts("G_MWO_MATRIX_YZ_YW_F");
case G_MWO_MATRIX_ZX_ZY_F:
return gfxd_puts("G_MWO_MATRIX_ZX_ZY_F");
case G_MWO_MATRIX_ZZ_ZW_F:
return gfxd_puts("G_MWO_MATRIX_ZZ_ZW_F");
case G_MWO_MATRIX_WX_WY_F:
return gfxd_puts("G_MWO_MATRIX_WX_WY_F");
case G_MWO_MATRIX_WZ_WW_F:
return gfxd_puts("G_MWO_MATRIX_WZ_WW_F");
default:
return gfxd_printf("0x%04" PRIX32, v->u);
}
}
UCFUNC int argfn_mwo_point(const gfxd_value_t *v)
{
switch (v->u)
{
case G_MWO_POINT_RGBA:
return gfxd_puts("G_MWO_POINT_RGBA");
case G_MWO_POINT_ST:
return gfxd_puts("G_MWO_POINT_ST");
case G_MWO_POINT_XYSCREEN:
return gfxd_puts("G_MWO_POINT_XYSCREEN");
case G_MWO_POINT_ZSCREEN:
return gfxd_puts("G_MWO_POINT_ZSCREEN");
default:
return gfxd_printf("0x%04" PRIX32, v->u);
}
}
UCFUNC int argfn_mv(const gfxd_value_t *v)
{
switch (v->i)
{
case G_MV_VIEWPORT:
return gfxd_puts("G_MV_VIEWPORT");
#if defined(F3D_GBI) || defined(F3DEX_GBI)
case G_MV_LOOKATY:
return gfxd_puts("G_MV_LOOKATY");
case G_MV_LOOKATX:
return gfxd_puts("G_MV_LOOKATX");
case G_MV_L0:
return gfxd_puts("G_MV_L0");
case G_MV_L1:
return gfxd_puts("G_MV_L1");
case G_MV_L2:
return gfxd_puts("G_MV_L2");
case G_MV_L3:
return gfxd_puts("G_MV_L3");
case G_MV_L4:
return gfxd_puts("G_MV_L4");
case G_MV_L5:
return gfxd_puts("G_MV_L5");
case G_MV_L6:
return gfxd_puts("G_MV_L6");
case G_MV_L7:
return gfxd_puts("G_MV_L7");
case G_MV_TXTATT:
return gfxd_puts("G_MV_TXTATT");
case G_MV_MATRIX_2:
return gfxd_puts("G_MV_MATRIX_2");
case G_MV_MATRIX_3:
return gfxd_puts("G_MV_MATRIX_3");
case G_MV_MATRIX_4:
return gfxd_puts("G_MV_MATRIX_4");
case G_MV_MATRIX_1:
return gfxd_puts("G_MV_MATRIX_1");
#elif defined(F3DEX_GBI_2)
case G_MV_MMTX:
return gfxd_puts("G_MV_MMTX");
case G_MV_PMTX:
return gfxd_puts("G_MV_PMTX");
case G_MV_LIGHT:
return gfxd_puts("G_MV_LIGHT");
case G_MV_POINT:
return gfxd_puts("G_MV_POINT");
case G_MV_MATRIX:
return gfxd_puts("G_MV_MATRIX");
#endif
default:
return gfxd_printf("%" PRIi32, v->i);
}
}
UCFUNC int argfn_cr(const gfxd_value_t *v)
{
switch (v->u)
{
case FRUSTRATIO_1:
return gfxd_puts("FRUSTRATIO_1");
case FRUSTRATIO_2:
return gfxd_puts("FRUSTRATIO_2");
case FRUSTRATIO_3:
return gfxd_puts("FRUSTRATIO_3");
case FRUSTRATIO_4:
return gfxd_puts("FRUSTRATIO_4");
case FRUSTRATIO_5:
return gfxd_puts("FRUSTRATIO_5");
case FRUSTRATIO_6:
return gfxd_puts("FRUSTRATIO_6");
default:
return gfxd_printf("%" PRIu32, v->u);
}
}