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514 lines
13 KiB
C
514 lines
13 KiB
C
/*
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* Copyright (C) 2007 Google (Evan Stade)
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include "gdiplus_private.h"
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/* Multiplies two matrices of the form
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*
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* idx:0 idx:1 0
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* idx:2 idx:3 0
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* idx:4 idx:5 1
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*
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* and puts the output in out.
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* */
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static void matrix_multiply(GDIPCONST REAL * left, GDIPCONST REAL * right, REAL * out)
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{
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REAL temp[6];
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int i, odd;
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for(i = 0; i < 6; i++){
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odd = i % 2;
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temp[i] = left[i - odd] * right[odd] + left[i - odd + 1] * right[odd + 2] +
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(i >= 4 ? right[odd + 4] : 0.0);
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}
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memcpy(out, temp, 6 * sizeof(REAL));
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}
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static REAL matrix_det(GDIPCONST GpMatrix *matrix)
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{
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return matrix->matrix[0]*matrix->matrix[3] - matrix->matrix[1]*matrix->matrix[2];
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}
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GpStatus WINGDIPAPI GdipCreateMatrix2(REAL m11, REAL m12, REAL m21, REAL m22,
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REAL dx, REAL dy, GpMatrix **matrix)
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{
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TRACE("(%.2f, %.2f, %.2f, %.2f, %.2f, %.2f, %p)\n", m11, m12, m21, m22, dx, dy, matrix);
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if(!matrix)
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return InvalidParameter;
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*matrix = heap_alloc_zero(sizeof(GpMatrix));
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if(!*matrix) return OutOfMemory;
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/* first row */
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(*matrix)->matrix[0] = m11;
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(*matrix)->matrix[1] = m12;
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/* second row */
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(*matrix)->matrix[2] = m21;
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(*matrix)->matrix[3] = m22;
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/* third row */
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(*matrix)->matrix[4] = dx;
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(*matrix)->matrix[5] = dy;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipCreateMatrix3(GDIPCONST GpRectF *rect,
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GDIPCONST GpPointF *pt, GpMatrix **matrix)
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{
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REAL m11, m12, m21, m22, dx, dy;
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TRACE("(%p, %p, %p)\n", rect, pt, matrix);
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if(!matrix || !pt)
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return InvalidParameter;
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m11 = (pt[1].X - pt[0].X) / rect->Width;
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m21 = (pt[2].X - pt[0].X) / rect->Height;
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dx = pt[0].X - m11 * rect->X - m21 * rect->Y;
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m12 = (pt[1].Y - pt[0].Y) / rect->Width;
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m22 = (pt[2].Y - pt[0].Y) / rect->Height;
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dy = pt[0].Y - m12 * rect->X - m22 * rect->Y;
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return GdipCreateMatrix2(m11, m12, m21, m22, dx, dy, matrix);
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}
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GpStatus WINGDIPAPI GdipCreateMatrix3I(GDIPCONST GpRect *rect, GDIPCONST GpPoint *pt,
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GpMatrix **matrix)
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{
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GpRectF rectF;
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GpPointF ptF[3];
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int i;
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TRACE("(%p, %p, %p)\n", rect, pt, matrix);
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rectF.X = (REAL)rect->X;
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rectF.Y = (REAL)rect->Y;
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rectF.Width = (REAL)rect->Width;
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rectF.Height = (REAL)rect->Height;
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for (i = 0; i < 3; i++) {
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ptF[i].X = (REAL)pt[i].X;
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ptF[i].Y = (REAL)pt[i].Y;
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}
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return GdipCreateMatrix3(&rectF, ptF, matrix);
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}
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GpStatus WINGDIPAPI GdipCloneMatrix(GpMatrix *matrix, GpMatrix **clone)
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{
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TRACE("(%p, %p)\n", matrix, clone);
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if(!matrix || !clone)
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return InvalidParameter;
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*clone = heap_alloc_zero(sizeof(GpMatrix));
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if(!*clone) return OutOfMemory;
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**clone = *matrix;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipCreateMatrix(GpMatrix **matrix)
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{
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TRACE("(%p)\n", matrix);
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if(!matrix)
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return InvalidParameter;
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*matrix = heap_alloc_zero(sizeof(GpMatrix));
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if(!*matrix) return OutOfMemory;
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(*matrix)->matrix[0] = 1.0;
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(*matrix)->matrix[1] = 0.0;
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(*matrix)->matrix[2] = 0.0;
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(*matrix)->matrix[3] = 1.0;
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(*matrix)->matrix[4] = 0.0;
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(*matrix)->matrix[5] = 0.0;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipDeleteMatrix(GpMatrix *matrix)
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{
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TRACE("(%p)\n", matrix);
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if(!matrix)
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return InvalidParameter;
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heap_free(matrix);
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return Ok;
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}
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GpStatus WINGDIPAPI GdipGetMatrixElements(GDIPCONST GpMatrix *matrix,
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REAL *out)
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{
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TRACE("(%p, %p)\n", matrix, out);
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if(!matrix || !out)
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return InvalidParameter;
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memcpy(out, matrix->matrix, sizeof(matrix->matrix));
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return Ok;
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}
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GpStatus WINGDIPAPI GdipInvertMatrix(GpMatrix *matrix)
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{
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GpMatrix copy;
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REAL det;
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BOOL invertible;
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TRACE("(%p)\n", matrix);
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if(!matrix)
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return InvalidParameter;
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GdipIsMatrixInvertible(matrix, &invertible);
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if(!invertible)
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return InvalidParameter;
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/* optimize inverting simple scaling and translation matrices */
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if(matrix->matrix[1] == 0 && matrix->matrix[2] == 0)
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{
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matrix->matrix[4] = -matrix->matrix[4] / matrix->matrix[0];
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matrix->matrix[5] = -matrix->matrix[5] / matrix->matrix[3];
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matrix->matrix[0] = 1 / matrix->matrix[0];
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matrix->matrix[3] = 1 / matrix->matrix[3];
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return Ok;
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}
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det = matrix_det(matrix);
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copy = *matrix;
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/* store result */
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matrix->matrix[0] = copy.matrix[3] / det;
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matrix->matrix[1] = -copy.matrix[1] / det;
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matrix->matrix[2] = -copy.matrix[2] / det;
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matrix->matrix[3] = copy.matrix[0] / det;
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matrix->matrix[4] = (copy.matrix[2]*copy.matrix[5]-copy.matrix[3]*copy.matrix[4]) / det;
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matrix->matrix[5] = -(copy.matrix[0]*copy.matrix[5]-copy.matrix[1]*copy.matrix[4]) / det;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipIsMatrixInvertible(GDIPCONST GpMatrix *matrix, BOOL *result)
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{
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TRACE("(%p, %p)\n", matrix, result);
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if(!matrix || !result)
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return InvalidParameter;
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if(matrix->matrix[1] == 0 && matrix->matrix[2] == 0)
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*result = matrix->matrix[0] != 0 && matrix->matrix[3] != 0;
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else
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*result = (fabs(matrix_det(matrix)) >= 1e-5);
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return Ok;
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}
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GpStatus WINGDIPAPI GdipMultiplyMatrix(GpMatrix *matrix, GDIPCONST GpMatrix* matrix2,
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GpMatrixOrder order)
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{
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TRACE("(%p, %p, %d)\n", matrix, matrix2, order);
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if(!matrix || !matrix2)
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return InvalidParameter;
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if(order == MatrixOrderAppend)
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matrix_multiply(matrix->matrix, matrix2->matrix, matrix->matrix);
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else if (order == MatrixOrderPrepend)
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matrix_multiply(matrix2->matrix, matrix->matrix, matrix->matrix);
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else
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return InvalidParameter;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipRotateMatrix(GpMatrix *matrix, REAL angle,
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GpMatrixOrder order)
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{
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REAL cos_theta, sin_theta, rotate[6];
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TRACE("(%p, %.2f, %d)\n", matrix, angle, order);
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if(!matrix)
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return InvalidParameter;
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angle = deg2rad(angle);
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cos_theta = cos(angle);
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sin_theta = sin(angle);
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rotate[0] = cos_theta;
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rotate[1] = sin_theta;
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rotate[2] = -sin_theta;
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rotate[3] = cos_theta;
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rotate[4] = 0.0;
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rotate[5] = 0.0;
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if(order == MatrixOrderAppend)
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matrix_multiply(matrix->matrix, rotate, matrix->matrix);
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else if (order == MatrixOrderPrepend)
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matrix_multiply(rotate, matrix->matrix, matrix->matrix);
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else
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return InvalidParameter;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipScaleMatrix(GpMatrix *matrix, REAL scaleX, REAL scaleY,
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GpMatrixOrder order)
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{
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REAL scale[6];
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TRACE("(%p, %.2f, %.2f, %d)\n", matrix, scaleX, scaleY, order);
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if(!matrix)
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return InvalidParameter;
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scale[0] = scaleX;
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scale[1] = 0.0;
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scale[2] = 0.0;
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scale[3] = scaleY;
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scale[4] = 0.0;
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scale[5] = 0.0;
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if(order == MatrixOrderAppend)
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matrix_multiply(matrix->matrix, scale, matrix->matrix);
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else if (order == MatrixOrderPrepend)
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matrix_multiply(scale, matrix->matrix, matrix->matrix);
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else
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return InvalidParameter;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipSetMatrixElements(GpMatrix *matrix, REAL m11, REAL m12,
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REAL m21, REAL m22, REAL dx, REAL dy)
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{
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TRACE("(%p, %.2f, %.2f, %.2f, %.2f, %.2f, %.2f)\n", matrix, m11, m12,
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m21, m22, dx, dy);
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if(!matrix)
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return InvalidParameter;
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matrix->matrix[0] = m11;
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matrix->matrix[1] = m12;
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matrix->matrix[2] = m21;
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matrix->matrix[3] = m22;
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matrix->matrix[4] = dx;
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matrix->matrix[5] = dy;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipShearMatrix(GpMatrix *matrix, REAL shearX, REAL shearY,
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GpMatrixOrder order)
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{
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REAL shear[6];
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TRACE("(%p, %.2f, %.2f, %d)\n", matrix, shearX, shearY, order);
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if(!matrix)
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return InvalidParameter;
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/* prepare transformation matrix */
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shear[0] = 1.0;
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shear[1] = shearY;
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shear[2] = shearX;
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shear[3] = 1.0;
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shear[4] = 0.0;
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shear[5] = 0.0;
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if(order == MatrixOrderAppend)
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matrix_multiply(matrix->matrix, shear, matrix->matrix);
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else if (order == MatrixOrderPrepend)
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matrix_multiply(shear, matrix->matrix, matrix->matrix);
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else
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return InvalidParameter;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipTransformMatrixPoints(GpMatrix *matrix, GpPointF *pts,
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INT count)
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{
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REAL x, y;
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INT i;
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TRACE("(%p, %p, %d)\n", matrix, pts, count);
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if(!matrix || !pts || count <= 0)
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return InvalidParameter;
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for(i = 0; i < count; i++)
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{
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x = pts[i].X;
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y = pts[i].Y;
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pts[i].X = x * matrix->matrix[0] + y * matrix->matrix[2] + matrix->matrix[4];
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pts[i].Y = x * matrix->matrix[1] + y * matrix->matrix[3] + matrix->matrix[5];
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}
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return Ok;
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}
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GpStatus WINGDIPAPI GdipTransformMatrixPointsI(GpMatrix *matrix, GpPoint *pts, INT count)
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{
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GpPointF *ptsF;
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GpStatus ret;
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INT i;
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TRACE("(%p, %p, %d)\n", matrix, pts, count);
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if(count <= 0)
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return InvalidParameter;
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ptsF = heap_alloc_zero(sizeof(GpPointF) * count);
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if(!ptsF)
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return OutOfMemory;
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for(i = 0; i < count; i++){
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ptsF[i].X = (REAL)pts[i].X;
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ptsF[i].Y = (REAL)pts[i].Y;
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}
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ret = GdipTransformMatrixPoints(matrix, ptsF, count);
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if(ret == Ok)
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for(i = 0; i < count; i++){
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pts[i].X = gdip_round(ptsF[i].X);
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pts[i].Y = gdip_round(ptsF[i].Y);
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}
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heap_free(ptsF);
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return ret;
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}
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GpStatus WINGDIPAPI GdipTranslateMatrix(GpMatrix *matrix, REAL offsetX,
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REAL offsetY, GpMatrixOrder order)
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{
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REAL translate[6];
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TRACE("(%p, %.2f, %.2f, %d)\n", matrix, offsetX, offsetY, order);
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if(!matrix)
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return InvalidParameter;
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translate[0] = 1.0;
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translate[1] = 0.0;
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translate[2] = 0.0;
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translate[3] = 1.0;
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translate[4] = offsetX;
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translate[5] = offsetY;
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if(order == MatrixOrderAppend)
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matrix_multiply(matrix->matrix, translate, matrix->matrix);
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else if (order == MatrixOrderPrepend)
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matrix_multiply(translate, matrix->matrix, matrix->matrix);
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else
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return InvalidParameter;
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return Ok;
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}
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GpStatus WINGDIPAPI GdipVectorTransformMatrixPoints(GpMatrix *matrix, GpPointF *pts, INT count)
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{
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REAL x, y;
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INT i;
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TRACE("(%p, %p, %d)\n", matrix, pts, count);
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if(!matrix || !pts || count <= 0)
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return InvalidParameter;
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for(i = 0; i < count; i++)
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{
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x = pts[i].X;
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y = pts[i].Y;
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pts[i].X = x * matrix->matrix[0] + y * matrix->matrix[2];
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pts[i].Y = x * matrix->matrix[1] + y * matrix->matrix[3];
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}
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return Ok;
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}
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GpStatus WINGDIPAPI GdipVectorTransformMatrixPointsI(GpMatrix *matrix, GpPoint *pts, INT count)
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{
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GpPointF *ptsF;
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GpStatus ret;
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INT i;
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TRACE("(%p, %p, %d)\n", matrix, pts, count);
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if(count <= 0)
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return InvalidParameter;
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ptsF = heap_alloc_zero(sizeof(GpPointF) * count);
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if(!ptsF)
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return OutOfMemory;
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for(i = 0; i < count; i++){
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ptsF[i].X = (REAL)pts[i].X;
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ptsF[i].Y = (REAL)pts[i].Y;
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}
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ret = GdipVectorTransformMatrixPoints(matrix, ptsF, count);
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/* store back */
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if(ret == Ok)
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for(i = 0; i < count; i++){
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pts[i].X = gdip_round(ptsF[i].X);
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pts[i].Y = gdip_round(ptsF[i].Y);
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}
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heap_free(ptsF);
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return ret;
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}
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GpStatus WINGDIPAPI GdipIsMatrixEqual(GDIPCONST GpMatrix *matrix, GDIPCONST GpMatrix *matrix2,
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BOOL *result)
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{
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TRACE("(%p, %p, %p)\n", matrix, matrix2, result);
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if(!matrix || !matrix2 || !result)
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return InvalidParameter;
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/* based on single array member of GpMatrix */
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*result = (memcmp(matrix->matrix, matrix2->matrix, sizeof(GpMatrix)) == 0);
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return Ok;
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}
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GpStatus WINGDIPAPI GdipIsMatrixIdentity(GDIPCONST GpMatrix *matrix, BOOL *result)
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{
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static const GpMatrix identity =
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{
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{ 1.0, 0.0,
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0.0, 1.0,
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0.0, 0.0 }
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};
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TRACE("(%p, %p)\n", matrix, result);
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if(!matrix || !result)
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return InvalidParameter;
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return GdipIsMatrixEqual(matrix, &identity, result);
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}
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