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Merge pull request #1440 from marauder2k9-torque/IntegerParsing

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Parse Property Templated function
This commit is contained in:
Brian Roberts 2025-04-14 10:03:35 -05:00 committed by GitHub
commit 75e23e85ea
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GPG key ID: B5690EEEBB952194
2 changed files with 367 additions and 246 deletions
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63
Engine/source/console/propertyParsing.h
View file

@ -162,6 +162,69 @@ namespace PropertyInfo
bool hex_print(String & string, const S8 & hex);
bool default_print(String & result, SimObjectType * const & data);
template<typename T, size_t count>
char* FormatPropertyBuffer(const void* dataPtr, char* buffer, U32 bufSize)
{
const T* values = reinterpret_cast<const T*>(dataPtr);
char* ptr = buffer;
for (size_t i = 0; i < count; ++i)
{
S32 written = 0;
if constexpr (std::is_same_v<T, int> || std::is_same_v<T, S32>)
written = dSprintf(ptr, bufSize - (ptr - buffer), "%d", values[i]);
else if constexpr (std::is_same_v<T, float> || std::is_same_v<T, F32>)
written = dSprintf(ptr, bufSize - (ptr - buffer), "%g", values[i]);
else
AssertFatal(sizeof(T) == 0, "Unsupported type in FormatProperty");
ptr += written;
if (i < count - 1)
*ptr++ = ' ';
}
return ptr; // return end of written string for chaining
}
template<typename T, size_t count>
const char* FormatProperty(const void* dataPtr)
{
static const U32 bufSize = 256;
char* buffer = Con::getReturnBuffer(bufSize);
FormatPropertyBuffer<T,count>(dataPtr, buffer, bufSize);
return buffer;
}
template<typename T, size_t count>
inline bool ParseProperty(char* str, T(&out)[count])
{
size_t index = 0;
char* tok = dStrtok(str, " \t");
while (tok && index < count)
{
if constexpr (std::is_same_v<T, int> || std::is_same_v<T, S32>)
{
out[index++] = mRound(dAtof(tok));
}
else if constexpr (std::is_same_v<T, float> || std::is_same_v<T, F32>)
{
out[index++] = dAtof(tok);
}
else
{
AssertFatal(sizeof(T) == 0, "Unsupported type in PropertyInfo::ParseProperty");
}
tok = dStrtok(nullptr, " \t");
}
return index == count;
}
}
// Default Scan/print definition

550
Engine/source/math/mathTypes.cpp
View file

@ -24,6 +24,7 @@
#include "console/consoleTypes.h"
#include "console/console.h"
#include "console/engineAPI.h"
#include "console/propertyParsing.h"
#include "math/mPoint2.h"
#include "math/mPoint3.h"
#include "math/mMatrix.h"
@ -169,21 +170,27 @@ ImplementConsoleTypeCasters( TypePoint2I, Point2I )
ConsoleGetType( TypePoint2I )
{
Point2I *pt = (Point2I *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%d %d", pt->x, pt->y);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<S32, 2>(dptr);
return buff;
}
ConsoleSetType( TypePoint2I )
{
if(argc == 1)
dSscanf(argv[0], "%d %d", &((Point2I *) dptr)->x, &((Point2I *) dptr)->y);
else if(argc == 2)
*((Point2I *) dptr) = Point2I(dAtoi(argv[0]), dAtoi(argv[1]));
else
Con::printf("Point2I must be set as { x, y } or \"x y\"");
if (argc >= 1)
{
S32 parsed[2];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<S32, 2>(buffer, parsed)) {
*((Point2I*)dptr) = Point2I(parsed[0], parsed[1]);
return;
}
}
Con::warnf("Point2I must be set as { x, y } or \"x y\"");
}
//-----------------------------------------------------------------------------
@ -194,21 +201,27 @@ ImplementConsoleTypeCasters( TypePoint2F, Point2F )
ConsoleGetType( TypePoint2F )
{
Point2F *pt = (Point2F *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%g %g", pt->x, pt->y);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 2>(dptr);
return buff;
}
ConsoleSetType( TypePoint2F )
{
if(argc == 1)
dSscanf(argv[0], "%g %g", &((Point2F *) dptr)->x, &((Point2F *) dptr)->y);
else if(argc == 2)
*((Point2F *) dptr) = Point2F(dAtof(argv[0]), dAtof(argv[1]));
else
Con::printf("Point2F must be set as { x, y } or \"x y\"");
if (argc >= 1)
{
F32 parsed[2];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<F32, 2>(buffer, parsed)) {
*((Point2F*)dptr) = Point2F(parsed[0], parsed[1]);
return;
}
}
Con::warnf("Point2F must be set as { x, y } or \"x y\"");
}
//-----------------------------------------------------------------------------
@ -219,21 +232,27 @@ ImplementConsoleTypeCasters(TypePoint3I, Point3I)
ConsoleGetType( TypePoint3I )
{
Point3I *pt = (Point3I *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%d %d %d", pt->x, pt->y, pt->z);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<S32, 3>(dptr);
return buff;
}
ConsoleSetType( TypePoint3I )
{
if(argc == 1)
dSscanf(argv[0], "%d %d %d", &((Point3I *) dptr)->x, &((Point3I *) dptr)->y, &((Point3I *) dptr)->z);
else if(argc == 3)
*((Point3I *) dptr) = Point3I(dAtoi(argv[0]), dAtoi(argv[1]), dAtoi(argv[2]));
else
Con::printf("Point3I must be set as { x, y, z } or \"x y z\"");
if (argc >= 1)
{
S32 parsed[3];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<S32, 3>(buffer, parsed)) {
*((Point3I*)dptr) = Point3I(parsed[0], parsed[1], parsed[2]);
return;
}
}
Con::warnf("Point3I must be set as { x, y, z } or \"x y z\"");
}
//-----------------------------------------------------------------------------
@ -244,21 +263,27 @@ ImplementConsoleTypeCasters(TypePoint3F, Point3F)
ConsoleGetType( TypePoint3F )
{
Point3F *pt = (Point3F *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%g %g %g", pt->x, pt->y, pt->z);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 3>(dptr);
return buff;
}
ConsoleSetType( TypePoint3F )
{
if(argc == 1)
dSscanf(argv[0], "%g %g %g", &((Point3F *) dptr)->x, &((Point3F *) dptr)->y, &((Point3F *) dptr)->z);
else if(argc == 3)
*((Point3F *) dptr) = Point3F(dAtof(argv[0]), dAtof(argv[1]), dAtof(argv[2]));
else
Con::printf("Point3F must be set as { x, y, z } or \"x y z\"");
if (argc >= 1)
{
F32 parsed[3];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<F32, 3>(buffer, parsed)) {
*((Point3F*)dptr) = Point3F(parsed[0], parsed[1], parsed[2]);
return;
}
}
Con::warnf("Point3F must be set as { x, y, z } or \"x y z\"");
}
//-----------------------------------------------------------------------------
@ -269,21 +294,27 @@ ImplementConsoleTypeCasters( TypePoint4F, Point4F )
ConsoleGetType( TypePoint4F )
{
Point4F *pt = (Point4F *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%g %g %g %g", pt->x, pt->y, pt->z, pt->w);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 4>(dptr);
return buff;
}
ConsoleSetType( TypePoint4F )
{
if(argc == 1)
dSscanf(argv[0], "%g %g %g %g", &((Point4F *) dptr)->x, &((Point4F *) dptr)->y, &((Point4F *) dptr)->z, &((Point4F *) dptr)->w);
else if(argc == 4)
*((Point4F *) dptr) = Point4F(dAtof(argv[0]), dAtof(argv[1]), dAtof(argv[2]), dAtof(argv[3]));
else
Con::printf("Point4F must be set as { x, y, z, w } or \"x y z w\"");
if (argc >= 1)
{
F32 parsed[4];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<F32, 4>(buffer, parsed)) {
*((Point4F*)dptr) = Point4F(parsed[0], parsed[1], parsed[2], parsed[3]);
return;
}
}
Con::warnf("Point4F must be set as { x, y, z, w } or \"x y z w\"");
}
//-----------------------------------------------------------------------------
@ -294,23 +325,27 @@ ImplementConsoleTypeCasters( TypeRectI, RectI )
ConsoleGetType( TypeRectI )
{
RectI *rect = (RectI *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%d %d %d %d", rect->point.x, rect->point.y,
rect->extent.x, rect->extent.y);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<S32, 4>(dptr);
return buff;
}
ConsoleSetType( TypeRectI )
{
if(argc == 1)
dSscanf(argv[0], "%d %d %d %d", &((RectI *) dptr)->point.x, &((RectI *) dptr)->point.y,
&((RectI *) dptr)->extent.x, &((RectI *) dptr)->extent.y);
else if(argc == 4)
*((RectI *) dptr) = RectI(dAtoi(argv[0]), dAtoi(argv[1]), dAtoi(argv[2]), dAtoi(argv[3]));
else
Con::printf("RectI must be set as { x, y, w, h } or \"x y w h\"");
if (argc >= 1)
{
S32 parsed[4];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<S32, 4>(buffer, parsed)) {
*((RectI*)dptr) = RectI(parsed[0], parsed[1], parsed[2], parsed[3]);
return;
}
}
Con::warnf("RectI must be set as { x, y, w, h } or \"x y w h\"");
}
//-----------------------------------------------------------------------------
@ -321,23 +356,27 @@ ImplementConsoleTypeCasters( TypeRectF, RectF )
ConsoleGetType( TypeRectF )
{
RectF *rect = (RectF *) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%g %g %g %g", rect->point.x, rect->point.y,
rect->extent.x, rect->extent.y);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 4>(dptr);
return buff;
}
ConsoleSetType( TypeRectF )
{
if(argc == 1)
dSscanf(argv[0], "%g %g %g %g", &((RectF *) dptr)->point.x, &((RectF *) dptr)->point.y,
&((RectF *) dptr)->extent.x, &((RectF *) dptr)->extent.y);
else if(argc == 4)
*((RectF *) dptr) = RectF(dAtof(argv[0]), dAtof(argv[1]), dAtof(argv[2]), dAtof(argv[3]));
else
Con::printf("RectF must be set as { x, y, w, h } or \"x y w h\"");
if (argc >= 1)
{
F32 parsed[4];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (PropertyInfo::ParseProperty<F32, 4>(buffer, parsed)) {
*((RectF*)dptr) = RectF(parsed[0], parsed[1], parsed[2], parsed[3]);
return;
}
}
Con::warnf("RectF must be set as { x, y, w, h } or \"x y w h\"");
}
//-----------------------------------------------------------------------------
@ -351,36 +390,44 @@ ImplementConsoleTypeCasters( TypeMatrixF, MatrixF )
ConsoleGetType( TypeMatrixF )
{
MatrixF* mat = ( MatrixF* ) dptr;
MatrixF* mat = (MatrixF*)dptr;
Point3F col0, col1, col2;
mat->getColumn(0, &col0);
mat->getColumn(1, &col1);
mat->getColumn(2, &col2);
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer,bufSize,"%g %g %g %g %g %g %g %g %g",
col0.x, col0.y, col0.z, col1.x, col1.y, col1.z, col2.x, col2.y, col2.z);
return returnBuffer;
char* buffer = Con::getReturnBuffer(bufSize);
PropertyInfo::FormatPropertyBuffer<F32, 3>(col0, buffer, bufSize);
*buffer++ = ' ';
PropertyInfo::FormatPropertyBuffer<F32, 3>(col1, buffer, bufSize);
*buffer++ = ' ';
PropertyInfo::FormatPropertyBuffer<F32, 3>(col2, buffer, bufSize);
return buffer;
}
ConsoleSetType( TypeMatrixF )
{
if( argc != 1 )
if (argc == 1)
{
Con::errorf( "MatrixF must be set as \"c0x c0y c0z c1x c1y c1z c2x c2y c2z\"" );
return;
}
Point3F col0, col1, col2;
dSscanf( argv[ 0 ], "%g %g %g %g %g %g %g %g %g",
&col0.x, &col0.y, &col0.z, &col1.x, &col1.y, &col1.z, &col2.x, &col2.y, &col2.z );
F32 parsed[9];
MatrixF* mat = ( MatrixF* ) dptr;
mat->setColumn( 0, col0 );
mat->setColumn( 1, col1 );
mat->setColumn( 2, col2 );
char* buffer = new char[dStrlen(argv[0])];
dStrcpy(buffer, argv[0], sizeof(buffer));
if (PropertyInfo::ParseProperty<F32, 9>(buffer, parsed)) {
MatrixF* mat = (MatrixF*)dptr;
mat->setColumn(0, Point3F(parsed[0], parsed[1], parsed[2]));
mat->setColumn(1, Point3F(parsed[3], parsed[4], parsed[5]));
mat->setColumn(2, Point3F(parsed[6], parsed[7], parsed[8]));
return;
}
}
Con::warnf("MatrixF must be set as \"c0x c0y c0z c1x c1y c1z c2x c2y c2z\"");
}
//-----------------------------------------------------------------------------
@ -390,32 +437,40 @@ ConsoleMappedType(MatrixPosition, TypeMatrixPosition, Point3F, MatrixF, "")
ConsoleGetType( TypeMatrixPosition )
{
F32 *col = (F32 *) dptr + 3;
F32* col = (F32*)dptr + 3;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
if(col[12] == 1.f)
dSprintf(returnBuffer, bufSize, "%g %g %g", col[0], col[4], col[8]);
Point4F pos(col[0], col[4], col[8], col[12]);
if (col[12] == 1.0f)
PropertyInfo::FormatPropertyBuffer<F32, 3>(&pos, returnBuffer, bufSize);
else
dSprintf(returnBuffer, bufSize, "%g %g %g %g", col[0], col[4], col[8], col[12]);
PropertyInfo::FormatPropertyBuffer<F32, 4>(&pos, returnBuffer, bufSize);
return returnBuffer;
}
ConsoleSetType( TypeMatrixPosition )
{
F32 *col = ((F32 *) dptr) + 3;
if (argc == 1)
if (argc >= 1)
{
col[0] = col[4] = col[8] = 0.f;
col[12] = 1.f;
dSscanf(argv[0], "%g %g %g %g", &col[0], &col[4], &col[8], &col[12]);
F32 parsed[4] = { 0.0f, 0.0f, 0.0f, 1.0f };
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
// we dont want to hard fail based on the count.
// this will allow any number of properties to be set.
PropertyInfo::ParseProperty<F32, 4>(buffer, parsed);
{
Point4F temp(parsed[0], parsed[1], parsed[2], parsed[3]);
MatrixF* mat = (MatrixF*)dptr;
mat->setColumn(3, temp);
return;
}
}
else if (argc <= 4)
{
for (S32 i = 0; i < argc; i++)
col[i << 2] = dAtof(argv[i]);
}
else
Con::printf("Matrix position must be set as { x, y, z, w } or \"x y z w\"");
Con::warnf("Matrix position must be set as { x, y, z, w } or \"x y z w\"");
}
//-----------------------------------------------------------------------------
@ -425,42 +480,38 @@ ConsoleMappedType(MatrixRotation, TypeMatrixRotation, AngAxisF, MatrixF, "")
ConsoleGetType( TypeMatrixRotation )
{
AngAxisF aa(*(MatrixF *) dptr);
AngAxisF aa(*(MatrixF*)dptr);
aa.axis.normalize();
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer,bufSize,"%g %g %g %g",aa.axis.x,aa.axis.y,aa.axis.z,mRadToDeg(aa.angle));
return returnBuffer;
aa.angle = mRadToDeg(aa.angle);
const char* buff = PropertyInfo::FormatProperty<F32, 4>(&aa);
return buff;
}
ConsoleSetType( TypeMatrixRotation )
{
// DMM: Note that this will ONLY SET the ULeft 3x3 submatrix.
//
AngAxisF aa(Point3F(0,0,0),0);
if (argc == 1)
if (argc >= 1)
{
dSscanf(argv[0], "%g %g %g %g", &aa.axis.x, &aa.axis.y, &aa.axis.z, &aa.angle);
aa.angle = mDegToRad(aa.angle);
}
else if (argc == 4)
{
for (S32 i = 0; i < argc; i++)
((F32*)&aa)[i] = dAtof(argv[i]);
aa.angle = mDegToRad(aa.angle);
}
else
Con::printf("Matrix rotation must be set as { x, y, z, angle } or \"x y z angle\"");
F32 parsed[4];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
//
MatrixF temp;
aa.setMatrix(&temp);
if (PropertyInfo::ParseProperty<F32, 4>(buffer, parsed))
{
AngAxisF aa(Point3F(parsed[0], parsed[1], parsed[2]), mDegToRad(parsed[3]));
MatrixF temp;
aa.setMatrix(&temp);
F32* pDst = *(MatrixF *)dptr;
const F32* pSrc = temp;
for (U32 i = 0; i < 3; i++)
for (U32 j = 0; j < 3; j++)
pDst[i*4 + j] = pSrc[i*4 + j];
F32* pDst = *(MatrixF*)dptr;
const F32* pSrc = temp;
for (U32 i = 0; i < 3; i++)
for (U32 j = 0; j < 3; j++)
pDst[i * 4 + j] = pSrc[i * 4 + j];
return;
}
}
Con::warnf("Matrix rotation must be set as { x, y, z, angle } or \"x y z angle\"");
}
//-----------------------------------------------------------------------------
@ -472,30 +523,29 @@ ImplementConsoleTypeCasters( TypeAngAxisF, AngAxisF )
ConsoleGetType( TypeAngAxisF )
{
AngAxisF* aa = ( AngAxisF* ) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer,bufSize,"%g %g %g %g",aa->axis.x,aa->axis.y,aa->axis.z,mRadToDeg(aa->angle));
return returnBuffer;
aa->angle = mRadToDeg(aa->angle);
const char* buff = PropertyInfo::FormatProperty<F32, 4>(aa);
return buff;
}
ConsoleSetType( TypeAngAxisF )
{
// DMM: Note that this will ONLY SET the ULeft 3x3 submatrix.
//
AngAxisF* aa = ( AngAxisF* ) dptr;
if (argc == 1)
if (argc >= 1)
{
dSscanf(argv[0], "%g %g %g %g", &aa->axis.x, &aa->axis.y, &aa->axis.z, &aa->angle);
aa->angle = mDegToRad(aa->angle);
F32 parsed[4];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if(PropertyInfo::ParseProperty<F32, 4>(buffer, parsed))
{
AngAxisF* aa = (AngAxisF*)dptr;
aa->set(Point3F(parsed[0], parsed[1], parsed[2]), mDegToRad(parsed[3]));
return;
}
}
else if (argc == 4)
{
for (S32 i = 0; i < argc; i++)
((F32*)&aa)[i] = dAtof(argv[i]);
aa->angle = mDegToRad(aa->angle);
}
else
Con::printf("AngAxisF must be set as { x, y, z, angle } or \"x y z angle\"");
Con::warnf("AngAxisF must be set as { x, y, z, angle } or \"x y z angle\"");
}
@ -510,38 +560,35 @@ ImplementConsoleTypeCasters( TypeTransformF, TransformF )
ConsoleGetType( TypeTransformF )
{
TransformF* aa = ( TransformF* ) dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf( returnBuffer, bufSize, "%g %g %g %g %g %g %g",
aa->mPosition.x, aa->mPosition.y, aa->mPosition.z,
aa->mOrientation.axis.x, aa->mOrientation.axis.y, aa->mOrientation.axis.z, aa->mOrientation.angle );
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 7>(dptr);
return buff;
}
ConsoleSetType( TypeTransformF )
{
TransformF* aa = ( TransformF* ) dptr;
if( argc == 1 )
if(argc >= 1)
{
U32 count = dSscanf( argv[ 0 ], "%g %g %g %g %g %g %g",
&aa->mPosition.x, &aa->mPosition.y, &aa->mPosition.z,
&aa->mOrientation.axis.x, &aa->mOrientation.axis.y, &aa->mOrientation.axis.z, &aa->mOrientation.angle );
F32 parsed[7];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
aa->mHasRotation = ( count == 7 );
if (PropertyInfo::ParseProperty<F32, 7>(buffer, parsed))
{
TransformF* aa = (TransformF*)dptr;
aa->mPosition.x = parsed[0];
aa->mPosition.y = parsed[1];
aa->mPosition.z = parsed[2];
aa->mOrientation.axis.x = parsed[3];
aa->mOrientation.axis.y = parsed[4];
aa->mOrientation.axis.z = parsed[5];
aa->mOrientation.angle = parsed[6];
aa->mHasRotation = true;
return;
}
}
else if( argc == 7 )
{
aa->mPosition.x = dAtof( argv[ 0 ] );
aa->mPosition.y = dAtof( argv[ 1 ] );
aa->mPosition.z = dAtof( argv[ 2 ] );
aa->mOrientation.axis.x = dAtof( argv[ 3 ] );
aa->mOrientation.axis.y = dAtof( argv[ 4 ] );
aa->mOrientation.axis.z = dAtof( argv[ 5 ] );
aa->mOrientation.angle = dAtof( argv[ 6 ] );
}
else
Con::errorf( "TransformF must be set as { px, py, pz, x, y, z, angle } or \"px py pz x y z angle\"");
Con::warnf("TransformF must be set as { px, py, pz, x, y, z, angle } or \"px py pz x y z angle\"");
}
@ -554,32 +601,33 @@ ImplementConsoleTypeCasters( TypeBox3F, Box3F )
ConsoleGetType( TypeBox3F )
{
const Box3F* pBox = (const Box3F*)dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%g %g %g %g %g %g",
pBox->minExtents.x, pBox->minExtents.y, pBox->minExtents.z,
pBox->maxExtents.x, pBox->maxExtents.y, pBox->maxExtents.z);
return returnBuffer;
const char* buff = PropertyInfo::FormatProperty<F32, 6>(dptr);
return buff;
}
ConsoleSetType( TypeBox3F )
{
Box3F* pDst = (Box3F*)dptr;
if (argc >= 1)
{
F32 parsed[6];
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
if (argc == 1)
{
U32 args = dSscanf(argv[0], "%g %g %g %g %g %g",
&pDst->minExtents.x, &pDst->minExtents.y, &pDst->minExtents.z,
&pDst->maxExtents.x, &pDst->maxExtents.y, &pDst->maxExtents.z);
AssertWarn(args == 6, "Warning, box probably not read properly");
}
else
{
Con::printf("Box3F must be set as \"xMin yMin zMin xMax yMax zMax\"");
if (PropertyInfo::ParseProperty<F32, 6>(buffer, parsed))
{
Box3F* pDst = (Box3F*)dptr;
pDst->minExtents.x = parsed[0];
pDst->minExtents.y = parsed[1];
pDst->minExtents.z = parsed[2];
pDst->maxExtents.x = parsed[3];
pDst->maxExtents.y = parsed[4];
pDst->maxExtents.z = parsed[5];
return;
}
}
Con::warnf("Box3F must be set as \"xMin yMin zMin xMax yMax zMax\"");
}
@ -591,31 +639,39 @@ ImplementConsoleTypeCasters( TypeEaseF, EaseF )
ConsoleGetType( TypeEaseF )
{
const EaseF* pEase = (const EaseF*)dptr;
static const U32 bufSize = 256;
char* returnBuffer = Con::getReturnBuffer(bufSize);
dSprintf(returnBuffer, bufSize, "%d %d %g %g",
pEase->mDir, pEase->mType, pEase->mParam[0], pEase->mParam[1]);
char* buffer = Con::getReturnBuffer(bufSize);
return returnBuffer;
EaseF* pEase = (EaseF*)dptr;
PropertyInfo::FormatPropertyBuffer<S32, 2>(pEase + 0, buffer, bufSize);
*buffer++ = ' ';
PropertyInfo::FormatPropertyBuffer<F32, 2>(pEase + 2, buffer, bufSize);
return buffer;
}
ConsoleSetType( TypeEaseF )
{
EaseF* pDst = (EaseF*)dptr;
if (argc >= 1)
{
F32 parsed[4];
parsed[2] = -1.0f;
parsed[3] = -1.0f;
// defaults...
pDst->mParam[0] = -1.0f;
pDst->mParam[1] = -1.0f;
if (argc == 1) {
U32 args = dSscanf(argv[0], "%d %d %f %f", // the two params are optional and assumed -1 if not present...
&pDst->mDir, &pDst->mType, &pDst->mParam[0],&pDst->mParam[1]);
if( args < 2 )
Con::warnf( "Warning, EaseF probably not read properly" );
} else {
Con::printf("EaseF must be set as \"dir type [param0 param1]\"");
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
// same as matrix do not hard fail based on count!
PropertyInfo::ParseProperty<F32, 4>(buffer, parsed);
{
((EaseF*)dptr)->set(mRound(parsed[0]), mRound(parsed[1]), parsed[2], parsed[3]);
return;
}
}
Con::warnf("EaseF must be set as \"dir type [param0 param1]\"");
}
//-----------------------------------------------------------------------------
@ -633,12 +689,12 @@ ConsoleGetType(TypeRotationF)
if (pt->mRotationType == RotationF::Euler)
{
EulerF out = pt->asEulerF(RotationF::Degrees);
dSprintf(returnBuffer, bufSize, "%g %g %g", out.x, out.y, out.z);
PropertyInfo::FormatPropertyBuffer<F32, 3>(out, returnBuffer, bufSize);
}
else if (pt->mRotationType == RotationF::AxisAngle)
{
AngAxisF out = pt->asAxisAngle(RotationF::Degrees);
dSprintf(returnBuffer, bufSize, "%g %g %g %g", out.axis.x, out.axis.y, out.axis.z, out.angle);
PropertyInfo::FormatPropertyBuffer<F32, 4>(&out, returnBuffer, bufSize);
}
return returnBuffer;
@ -646,34 +702,36 @@ ConsoleGetType(TypeRotationF)
ConsoleSetType(TypeRotationF)
{
if (argc == 1)
if (argc >= 1)
{
U32 elements = StringUnit::getUnitCount(argv[0], " \t\n");
// Combine argv into a single space-separated string if argc > 1
char buffer[256] = { 0 };
dStrncpy(buffer, *argv, sizeof(buffer));
U32 elements = StringUnit::getUnitCount(buffer, " \t\n");
if (elements == 3)
{
EulerF in;
dSscanf(argv[0], "%g %g %g", &in.x, &in.y, &in.z);
((RotationF *)dptr)->set(in, RotationF::Degrees);
F32 parsed[3];
if(PropertyInfo::ParseProperty<F32, 3>(buffer, parsed))
{
EulerF in(parsed[0], parsed[1], parsed[2]);
((RotationF*)dptr)->set(in, RotationF::Degrees);
return;
}
}
else
else if (elements == 4)
{
AngAxisF in;
dSscanf(argv[0], "%g %g %g %g", &in.axis.x, &in.axis.y, &in.axis.z, &in.angle);
((RotationF *)dptr)->set(in, RotationF::Degrees);
F32 parsed[4];
if (PropertyInfo::ParseProperty<F32, 4>(buffer, parsed))
{
AngAxisF in(Point3F(parsed[0], parsed[1], parsed[2]), parsed[3]);
((RotationF*)dptr)->set(in, RotationF::Degrees);
return;
}
}
}
else if (argc == 3)
{
EulerF in(dAtof(argv[0]), dAtof(argv[1]), dAtof(argv[2]));
((RotationF *)dptr)->set(in, RotationF::Degrees);
}
else if (argc == 4)
{
AngAxisF in(Point3F(dAtof(argv[0]), dAtof(argv[1]), dAtof(argv[2])), dAtof(argv[3]));
((RotationF *)dptr)->set(in, RotationF::Degrees);
}
else
Con::printf("RotationF must be set as { x, y, z, w } or \"x y z w\"");
Con::warnf("RotationF must be set as { x, y, z, w } or \"x y z w\"");
}
//-----------------------------------------------------------------------------