zdoom
/
gzdoom
mirror of https://github.com/ZDoom/gzdoom.git
0
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

- for ARM compatibility, direct float -> unsigned int conversions should be avoided.

This commit is contained in:
Christoph Oelckers 2016-02-07 16:31:55 +01:00
parent f625be61a2
commit e3bf1dd92b
1 changed files with 2 additions and 2 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
src/zscript/vm.h
View File

@ -892,7 +892,7 @@ void VMDisasm(FILE *out, const VMOP *code, int codesize, const VMScriptFunction
#define PARAM_COLOR_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_INT); PalEntry x; x.d = param[p].i;
#define PARAM_FLOAT_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_FLOAT); double x = param[p].f;
#define PARAM_FIXED_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_FLOAT); fixed_t x = FLOAT2FIXED(param[p].f);
#define PARAM_ANGLE_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_FLOAT); angle_t x = angle_t(param[p].f * (ANGLE_90 / 90.0));
#define PARAM_ANGLE_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_FLOAT); angle_t x = angle_t(int(param[p].f * (ANGLE_90 / 90.0)));
#define PARAM_STRING_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_STRING); FString x = param[p].s();
#define PARAM_STATE_AT(p,x) assert((p) < numparam); assert(param[p].Type == REGT_POINTER && (param[p].atag == ATAG_STATE || param[p].a == NULL)); FState *x = (FState *)param[p].a;
#define PARAM_POINTER_AT(p,x,type) assert((p) < numparam); assert(param[p].Type == REGT_POINTER); type *x = (type *)param[p].a;
@ -910,7 +910,7 @@ void VMDisasm(FILE *out, const VMOP *code, int codesize, const VMScriptFunction
#define PARAM_COLOR_OPT_AT(p,x) PalEntry x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_INT); x.d = param[p].i; } else
#define PARAM_FLOAT_OPT_AT(p,x) double x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_FLOAT); x = param[p].f; } else
#define PARAM_FIXED_OPT_AT(p,x) fixed_t x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_FLOAT); x = FLOAT2FIXED(param[p].f); } else
#define PARAM_ANGLE_OPT_AT(p,x) angle_t x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_FLOAT); x = angle_t(param[p].f * (ANGLE_90 / 90.0)); } else
#define PARAM_ANGLE_OPT_AT(p,x) angle_t x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_FLOAT); x = angle_t(int(param[p].f * (ANGLE_90 / 90.0))); } else
#define PARAM_STRING_OPT_AT(p,x) FString x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_STRING); x = param[p].s(); } else
#define PARAM_STATE_OPT_AT(p,x) FState *x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_POINTER && (param[p].atag == ATAG_STATE || param[p].a == NULL)); x = (FState *)param[p].a; } else
#define PARAM_POINTER_OPT_AT(p,x,type) type *x; if ((p) < numparam && param[p].Type != REGT_NIL) { assert(param[p].Type == REGT_POINTER); x = (type *)param[p].a; } else