#include <mil.h>
void PrintHeader()
{
MosPrintf(MIL_TEXT("[EXAMPLE NAME]\n"));
MosPrintf(MIL_TEXT("AdvancedMeasurement\n\n"));
MosPrintf(MIL_TEXT("[SYNOPSIS]\n"));
MosPrintf(MIL_TEXT("This example shows how to use some controls and score functions\n"));
MosPrintf(MIL_TEXT("to measure edges or stripes in different scenarios.\n\n"));
MosPrintf(MIL_TEXT("[MODULES USED]\n"));
MosPrintf(MIL_TEXT("Modules used: application, system, display, buffer, graphic, measurement.\n\n"));
MosPrintf(MIL_TEXT("Press <Enter> to start.\n\n"));
MosGetch();
}
void Measure(MIL_ID MilSystem, MIL_ID MilDisplay, MIL_INT ImageIndex);
void IntroMessageForMeasure0();
void IntroMessageForMeasure1();
void IntroMessageForMeasure2();
void IntroMessageForMeasure3();
void IntroMessageForMeasure4();
void IntroMessageForMeasure5();
void IntroMessageForMeasure6();
void IntroMessageForMeasure7();
void SetupForMarker0(MIL_ID MilMarker);
void SetupForMarker1(MIL_ID MilMarker);
void SetupForMarker2(MIL_ID MilMarker);
void SetupForMarker3(MIL_ID MilMarker);
void SetupForMarker4(MIL_ID MilMarker);
void SetupForMarker5(MIL_ID MilMarker);
void SetupForMarker6(MIL_ID MilMarker);
void SetupForMarker7(MIL_ID MilMarker);
void SetCalibrationMarker5(MIL_ID MilImage);
void DrawForMarker4(MIL_ID MilOverlayImage, MIL_ID MilMarker);
void DrawForMarker6(MIL_ID MilOverlayImage, MIL_ID MilMarker);
void DrawDotAtPosition(MIL_ID MilOverlayImage, MIL_DOUBLE PositionX, MIL_DOUBLE PositionY);
void DrawLegend(MIL_ID MilOverlayImage, bool DrawGlobalEdge, bool DrawSubPositions);
void FindMarkerAndShowResults(MIL_ID MilImage,
MIL_ID MilOverlayImage,
MIL_ID MilMarker,
MIL_INT DrawRegionType,
MIL_INT ImageIndex);
#define EXAMPLE_IMAGE_PATH M_IMAGE_PATH MIL_TEXT("AdvancedMeasurement/")
static const MIL_INT NB_IMAGES = 8;
static MIL_CONST_TEXT_PTR IMAGE_FILENAME[NB_IMAGES] =
{
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement0.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement0.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement0.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement0.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement4.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement5.mim"),
M_IMAGE_PATH MIL_TEXT("lead.mim"),
EXAMPLE_IMAGE_PATH MIL_TEXT("measurement7.mim")
};
static MIL_CONST_TEXT_PTR EXEMPLE_NAME[NB_IMAGES] =
{
MIL_TEXT("Find bottom edge"),
MIL_TEXT("Find top edge"),
MIL_TEXT("Find the widest stripe"),
MIL_TEXT("Find the widest stripe subpositions"),
MIL_TEXT("Find the stripe that contains the inclusion point"),
MIL_TEXT("Find the evenly spaced edges"),
MIL_TEXT("Find the stripe with a maximum association distance"),
MIL_TEXT("Find the edge with search region clipping")
};
static const MIL_DOUBLE POSITION_COLOR = M_COLOR_YELLOW;
static const MIL_DOUBLE SUB_POSITIONS_COLOR = M_COLOR_GREEN;
static const MIL_DOUBLE BOX_COLOR = M_COLOR_BLUE;
static const MIL_DOUBLE EDGES_COLOR = M_COLOR_RED;
static const MIL_DOUBLE SINGLE_POINT_COLOR = M_RGB888(255, 102, 0);
static const MIL_DOUBLE ERROR_COLOR = M_COLOR_RED;
static const MIL_DOUBLE ERROR_TEXT_POS_X = 30.0;
static const MIL_DOUBLE ERROR_TEXT_POS_Y = 30.0;
static const MIL_INT MARKER_TYPE [NB_IMAGES] = { M_EDGE, M_EDGE, M_STRIPE, M_STRIPE, M_STRIPE, M_EDGE, M_STRIPE, M_EDGE };
static const MIL_DOUBLE FIRST_EDGE_POLARITY [NB_IMAGES] = { M_ANY, M_ANY, M_ANY, M_ANY, M_ANY, M_NEGATIVE, M_NEGATIVE, M_POSITIVE };
static const MIL_DOUBLE SECOND_EDGE_POLARITY[NB_IMAGES] = { M_DEFAULT, M_DEFAULT, M_DEFAULT, M_DEFAULT, M_OPPOSITE, M_DEFAULT, M_NEGATIVE, M_DEFAULT };
static const MIL_DOUBLE BOX_CENTER_POS_X [NB_IMAGES] = { 388, 388, 388, 388, 244, 320, 159, 331 };
static const MIL_DOUBLE BOX_CENTER_POS_Y [NB_IMAGES] = { 335, 335, 335, 335, 357, 247, 332, 260 };
static const MIL_DOUBLE BOX_SIZE_X [NB_IMAGES] = { 261, 261, 261, 261, 459, 503, 190, 485 };
static const MIL_DOUBLE BOX_SIZE_Y [NB_IMAGES] = { 572, 572, 572, 572, 63, 82, 250, 156 };
static const MIL_DOUBLE BOX_ANGLE [NB_IMAGES] = { 90, 90, 90, 90, 0, 0, 15, 300 };
static const MIL_DOUBLE SUB_REGIONS_NUMBER [NB_IMAGES] = { M_DEFAULT, M_DEFAULT, M_DEFAULT, 20, M_DEFAULT, M_DEFAULT, M_DEFAULT, M_DEFAULT };
static const MIL_DOUBLE NB_MARKERS [NB_IMAGES] = { M_DEFAULT, M_DEFAULT, M_DEFAULT, M_DEFAULT, M_DEFAULT, M_ALL, M_DEFAULT, M_DEFAULT };
static const MIL_DOUBLE EDGEVALUE_MIN [NB_IMAGES] = { M_DEFAULT, M_DEFAULT, M_DEFAULT, M_DEFAULT, 1.5, M_DEFAULT, M_DEFAULT, M_DEFAULT };
static const MIL_DOUBLE INCLUSION_POINT_X = 240.0;
static const MIL_DOUBLE INCLUSION_POINT_Y = 347.0;
int MosMain(void)
{
MIL_ID MilApplication = MappAlloc(M_NULL, M_DEFAULT, M_NULL);
MIL_ID MilSystem = MsysAlloc(M_DEFAULT, M_SYSTEM_HOST, M_DEFAULT, M_DEFAULT, M_NULL);
MIL_ID MilDisplay = MdispAlloc(MilSystem, M_DEFAULT, MIL_TEXT("M_DEFAULT"), M_WINDOWED, M_NULL);
PrintHeader();
for (MIL_INT ImageIndex = 0; ImageIndex < NB_IMAGES; ++ImageIndex)
Measure(MilSystem, MilDisplay, ImageIndex);
MdispFree(MilDisplay);
MsysFree(MilSystem);
MappFree(MilApplication);
return 0;
}
void Measure(MIL_ID MilSystem, MIL_ID MilDisplay, MIL_INT ImageIndex)
{
MosPrintf(MIL_TEXT("=========================================================\n")
MIL_TEXT("%d - %s\n")
MIL_TEXT("=========================================================\n\n"),
ImageIndex,
EXEMPLE_NAME[ImageIndex]);
switch (ImageIndex)
{
case 0: IntroMessageForMeasure0(); break;
case 1: IntroMessageForMeasure1(); break;
case 2: IntroMessageForMeasure2(); break;
case 3: IntroMessageForMeasure3(); break;
case 4: IntroMessageForMeasure4(); break;
case 5: IntroMessageForMeasure5(); break;
case 6: IntroMessageForMeasure6(); break;
case 7: IntroMessageForMeasure7(); break;
}
MIL_ID MilImage = MbufRestore(IMAGE_FILENAME[ImageIndex], MilSystem, M_NULL);
MdispSelect(MilDisplay, MilImage);
MdispControl(MilDisplay, M_OVERLAY, M_ENABLE);
MIL_ID MilOverlayImage = MdispInquire(MilDisplay, M_OVERLAY_ID, M_NULL);
MIL_ID MilMarker = MmeasAllocMarker(MilSystem, MARKER_TYPE[ImageIndex], M_DEFAULT, M_NULL);
MmeasSetMarker(MilMarker, M_POLARITY , FIRST_EDGE_POLARITY[ImageIndex], SECOND_EDGE_POLARITY[ImageIndex]);
MmeasSetMarker(MilMarker, M_BOX_CENTER , BOX_CENTER_POS_X [ImageIndex], BOX_CENTER_POS_Y[ImageIndex] );
MmeasSetMarker(MilMarker, M_BOX_SIZE , BOX_SIZE_X [ImageIndex], BOX_SIZE_Y[ImageIndex] );
MmeasSetMarker(MilMarker, M_BOX_ANGLE , BOX_ANGLE [ImageIndex], M_NULL );
MmeasSetMarker(MilMarker, M_SUB_REGIONS_NUMBER, SUB_REGIONS_NUMBER [ImageIndex], M_NULL );
MmeasSetMarker(MilMarker, M_NUMBER , NB_MARKERS [ImageIndex], M_NULL );
MmeasSetMarker(MilMarker, M_EDGEVALUE_MIN , EDGEVALUE_MIN [ImageIndex], M_NULL );
FindMarkerAndShowResults(MilImage, MilOverlayImage, MilMarker, M_MARKER, ImageIndex);
MosPrintf(MIL_TEXT("Press <Enter> to measure again, using custom settings.\n\n"));
MosGetch();
MdispControl(MilDisplay, M_OVERLAY_CLEAR, M_DEFAULT);
MosPrintf(MIL_TEXT("----------\n\n"));
switch (ImageIndex)
{
case 0: SetupForMarker0(MilMarker); break;
case 1: SetupForMarker1(MilMarker); break;
case 2: SetupForMarker2(MilMarker); break;
case 3: SetupForMarker3(MilMarker); break;
case 4: SetupForMarker4(MilMarker); break;
case 5: SetupForMarker5(MilMarker); break;
case 6: SetupForMarker6(MilMarker); break;
case 7: SetupForMarker7(MilMarker); break;
}
FindMarkerAndShowResults(MilImage, MilOverlayImage, MilMarker, M_RESULT, ImageIndex);
if (ImageIndex < NB_IMAGES-1)
MosPrintf(MIL_TEXT("Press <Enter> to continue.\n\n\n"));
else
MosPrintf(MIL_TEXT("Press <Enter> to end.\n\n"));
MosGetch();
MdispControl(MilDisplay, M_OVERLAY_CLEAR, M_DEFAULT);
MmeasFree(MilMarker);
MbufFree(MilImage);
}
void IntroMessageForMeasure0()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the bottom edge of the bacon.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The found marker (in yellow) is the edge with the greatest score.\n")
MIL_TEXT("The edge is not found at the expected position.\n\n"));
}
void SetupForMarker0(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("[Search with modified marker]\n"));
MosPrintf(MIL_TEXT("To get the bottom edge, the following settings are used:\n\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_DISTANCE_FROM_BOX_ORIGIN_SCORE\n")
MIL_TEXT(" This adds a position criterion, to select the edge closest to\n")
MIL_TEXT(" the box origin.\n")
MIL_TEXT(" (a decreasing ramp function is used).\n\n"));
MmeasSetScore(MilMarker, M_STRENGTH_SCORE , 0, 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_DISTANCE_FROM_BOX_ORIGIN_SCORE, 0, 0, 0 , M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
}
void IntroMessageForMeasure1()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the top edge of the bacon.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The found marker (in yellow) is the edge with the greatest score.\n")
MIL_TEXT("The edge is not found at the expected position.\n\n"));
}
void SetupForMarker1(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("[Search with modified maker]\n"));
MosPrintf(MIL_TEXT("To get the top edge, the following settings are used:\n\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_DISTANCE_FROM_BOX_ORIGIN_SCORE\n")
MIL_TEXT(" This adds a position criterion, to select the edge furthest to\n")
MIL_TEXT(" the box origin.\n")
MIL_TEXT(" (an increasing ramp function is used).\n\n"));
MmeasSetScore(MilMarker, M_STRENGTH_SCORE , 0, 0 , M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_DISTANCE_FROM_BOX_ORIGIN_SCORE, 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
}
void IntroMessageForMeasure2()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the widest stripe of the bacon.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The found marker (in yellow) is composed of the two edges with\n")
MIL_TEXT("the greatest scores.\n")
MIL_TEXT("The stripe is not found at the expected position.\n\n"));
}
void SetupForMarker2(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To get the widest possible stripe, the following settings are used:\n\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_STRIPE_WIDTH_SCORE\n")
MIL_TEXT(" This adds a width criterion, which chooses the widest stripe.\n")
MIL_TEXT(" (an increasing ramp function is used).\n\n"));
MmeasSetScore(MilMarker, M_STRENGTH_SCORE, 0, 0 , M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_STRIPE_WIDTH_SCORE , 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
}
void IntroMessageForMeasure3()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the widest stripe subpositions of the bacon.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The number of subregions is set to 20.\n")
MIL_TEXT("The subedges (in green) are the ones with maximal edge scores.\n")
MIL_TEXT("The found stripe's subpositions are not as expected.\n\n"));
}
void SetupForMarker3(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To get the widest possible stripe, the following settings are used:\n\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_STRIPE_WIDTH_SCORE\n")
MIL_TEXT(" This adds a width criterion, which chooses the widest stripe.\n")
MIL_TEXT(" (an increasing ramp function is used).\n\n"));
MmeasSetScore(MilMarker, M_STRENGTH_SCORE, 0, 0 , M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_STRIPE_WIDTH_SCORE , 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
}
void IntroMessageForMeasure4()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the white bead containing the orange dot.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The found marker (in yellow) is composed of the two edges with\n")
MIL_TEXT("the greatest scores.\n")
MIL_TEXT("The found stripe is not as expected.\n\n"));
}
void SetupForMarker4(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To perform the correct measurements, the following settings are used:\n\n")
MIL_TEXT(" M_INCLUSION_POINT\n")
MIL_TEXT(" This value specifies the point that must be included in\n")
MIL_TEXT(" the result (orange dot).\n")
MIL_TEXT(" M_INCLUSION_POINT_INSIDE_STRIPE (set to M_YES)\n")
MIL_TEXT(" This forces to return a stripe containing the inclusion point\n")
MIL_TEXT(" (M_INCLUSION_POINT).\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_STRIPE_WIDTH_SCORE\n")
MIL_TEXT(" This adds a width criterion, which chooses the smallest stripe.\n")
MIL_TEXT(" (a decreasing ramp function is used).\n\n"));
MmeasSetMarker(MilMarker, M_INCLUSION_POINT , INCLUSION_POINT_X, INCLUSION_POINT_Y);
MmeasSetMarker(MilMarker, M_INCLUSION_POINT_INSIDE_STRIPE, M_YES, M_NULL);
MmeasSetScore(MilMarker, M_STRENGTH_SCORE, 0, 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_STRIPE_WIDTH_SCORE , 0, 0, 0 , M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_PIXEL , M_DEFAULT);
}
void DrawResultForMarker4(MIL_ID MilOverlayImage, MIL_ID MilMarker)
{
DrawDotAtPosition(MilOverlayImage, INCLUSION_POINT_X, INCLUSION_POINT_Y);
}
void IntroMessageForMeasure5()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the evenly spaced edges by 1/4\".\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The expected number of edges is M_ALL.\n")
MIL_TEXT("With these settings, all the edges in the search region are found,\n")
MIL_TEXT("however they do not respect the expected spacing.\n\n"));
}
void SetupForMarker5(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To perform the correct measurements, the following settings are used:\n\n")
MIL_TEXT(" M_STRENGTH_SCORE\n")
MIL_TEXT(" This removes the strength criterion (it is replaced by a flat function).\n")
MIL_TEXT(" M_SPACING_SCORE with M_WORLD input units\n")
MIL_TEXT(" This adds a spacing criterion, which chooses the correctly spaced edges\n")
MIL_TEXT(" (bandpass function).\n")
MIL_TEXT(" Note that McalUniform was used to set a scale only calibration.\n")
MIL_TEXT(" This allows for a spacing criterion in world input units\n\n"));
MIL_DOUBLE ExpectedSpacing = 1.0 / 4.0;
MIL_DOUBLE DeltaSpacing = 0.01;
MmeasSetScore(MilMarker, M_STRENGTH_SCORE, 0, 0, M_MAX_POSSIBLE_VALUE, M_MAX_POSSIBLE_VALUE, M_DEFAULT, M_DEFAULT, M_DEFAULT);
MmeasSetScore(MilMarker, M_SPACING_SCORE, ExpectedSpacing - DeltaSpacing, ExpectedSpacing - DeltaSpacing, ExpectedSpacing + DeltaSpacing, ExpectedSpacing + DeltaSpacing, M_DEFAULT, M_WORLD, M_DEFAULT);
}
void SetCalibrationMarker5(MIL_ID MilImage)
{
MIL_DOUBLE NbPixelsPerInch = 473.0;
MIL_DOUBLE PixelScale = (1.0 / NbPixelsPerInch);
McalUniform(MilImage, 0.0, 0.0, PixelScale, PixelScale, 0.0, M_DEFAULT);
}
void IntroMessageForMeasure6()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the stripe and associate the correct subedges\n")
MIL_TEXT("using M_MAX_ASSOCIATION_DISTANCE.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n")
MIL_TEXT("The found marker (in yellow) is composed of the two edges with\n")
MIL_TEXT("the greatest scores.\n")
MIL_TEXT("The subedges (in green) are the ones that maximize the score\n")
MIL_TEXT("in each subregion.\n")
MIL_TEXT("One subedge per region is associated to each edges (orange dots).\n")
MIL_TEXT("The subedges are used to compute the edge's line equation and the\n")
MIL_TEXT("edge's line angle (in red).\n")
MIL_TEXT("The first and second edges lines always cross their positions.\n")
MIL_TEXT("The edges positions (orange dots) are correct, however their associated\n")
MIL_TEXT("subedges are not. Subsequently, the edges don't have a correct angle.\n\n"));
}
void SetupForMarker6(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To get the correct angle for the exterior edges, the following setting is used:\n\n")
MIL_TEXT(" M_MAX_ASSOCIATION_DISTANCE\n")
MIL_TEXT(" This forces the maximum allowed distance from the found exterior edges\n")
MIL_TEXT(" (orange dots) to the associated subedges (in green).\n\n"));
MIL_DOUBLE MaxAssociationDistance = 5.0;
MmeasSetMarker(MilMarker, M_MAX_ASSOCIATION_DISTANCE, MaxAssociationDistance, M_NULL);
}
void DrawResultForMarker6(MIL_ID MilOverlayImage, MIL_ID MilMarker)
{
MIL_DOUBLE FirstPositionX;
MIL_DOUBLE FirstPositionY;
MmeasGetResultSingle(MilMarker, M_POSITION + M_EDGE_FIRST, &FirstPositionX, &FirstPositionY, 0);
MIL_DOUBLE SecondPositionX;
MIL_DOUBLE SecondPositionY;
MmeasGetResultSingle(MilMarker, M_POSITION + M_EDGE_SECOND, &SecondPositionX, &SecondPositionY, 0);
DrawDotAtPosition(MilOverlayImage,FirstPositionX , FirstPositionY);
DrawDotAtPosition(MilOverlayImage,SecondPositionX, SecondPositionY);
}
void IntroMessageForMeasure7()
{
MosPrintf(MIL_TEXT("[Objective]\n")
MIL_TEXT("Find the edge even if one or more corners of the search region\n")
MIL_TEXT("fall outside the image limits.\n\n"));
MosPrintf(MIL_TEXT("[Search with default values]\n"));
MosPrintf(MIL_TEXT("All settings are left to default except the search region (in blue).\n")
MIL_TEXT("No results are found because the search region is partly outside the image.\n\n"));
}
void SetupForMarker7(MIL_ID MilMarker)
{
MosPrintf(MIL_TEXT("To be able to perform a measurement, the following setting is used:\n\n")
MIL_TEXT(" M_SEARCH_REGION_CLIPPING\n")
MIL_TEXT(" This enables the module to clip the search region within\n")
MIL_TEXT(" the image limits.\n\n"));
MmeasSetMarker(MilMarker, M_SEARCH_REGION_CLIPPING, M_ENABLE, M_NULL);
}
void FindMarkerAndShowResults(MIL_ID MilImage,
MIL_ID MilOverlayImage,
MIL_ID MilMarker,
MIL_INT DrawRegionType,
MIL_INT ImageIndex)
{
switch (ImageIndex)
{
case 5: SetCalibrationMarker5(MilImage);
}
MmeasFindMarker(M_DEFAULT, MilImage, MilMarker, M_DEFAULT);
MgraColor(M_DEFAULT, BOX_COLOR);
MmeasDraw(M_DEFAULT, MilMarker, MilOverlayImage, M_DRAW_SEARCH_REGION, M_DEFAULT, DrawRegionType);
MmeasDraw(M_DEFAULT, MilMarker, MilOverlayImage, M_DRAW_SEARCH_DIRECTION, M_DEFAULT, DrawRegionType);
MIL_INT NumberOccurrencesFound;
MmeasGetResult(MilMarker, M_NUMBER+M_TYPE_MIL_INT, &NumberOccurrencesFound, M_NULL);
if (NumberOccurrencesFound >= 1)
{
bool DrawGlobalEdge = false;
bool DrawSubPositions = false;
switch (ImageIndex)
{
case 0:
case 1:
case 2:
case 4:
case 5:
case 7:
{
DrawGlobalEdge = true;
}
break;
case 3:
{
DrawSubPositions = true;
}
break;
case 6:
{
DrawGlobalEdge = true;
DrawSubPositions = true;
}
break;
}
DrawLegend(MilOverlayImage, DrawGlobalEdge, DrawSubPositions);
if(DrawGlobalEdge)
{
MgraColor(M_DEFAULT, EDGES_COLOR);
MmeasDraw(M_DEFAULT, MilMarker, MilOverlayImage, M_DRAW_EDGES, M_DEFAULT, M_RESULT);
MgraColor(M_DEFAULT, POSITION_COLOR);
MmeasDraw(M_DEFAULT, MilMarker, MilOverlayImage, M_DRAW_POSITION, M_DEFAULT, M_RESULT);
}
if(DrawSubPositions)
{
MgraColor(M_DEFAULT, SUB_POSITIONS_COLOR);
MmeasDraw(M_DEFAULT, MilMarker, MilOverlayImage, M_DRAW_SUB_POSITIONS, M_DEFAULT, M_RESULT);
}
switch (ImageIndex)
{
case 4: DrawResultForMarker4(MilOverlayImage, MilMarker); break;
case 6: DrawResultForMarker6(MilOverlayImage, MilMarker); break;
}
}
else
{
MgraColor(M_DEFAULT, ERROR_COLOR);
MgraText(M_DEFAULT, MilOverlayImage, ERROR_TEXT_POS_X, ERROR_TEXT_POS_Y, MIL_TEXT("The marker was not found."));
}
}
void DrawDotAtPosition(MIL_ID MilOverlayImage, MIL_DOUBLE PositionX, MIL_DOUBLE PositionY)
{
MgraColor(M_DEFAULT, SINGLE_POINT_COLOR);
MgraArcFill(M_DEFAULT, MilOverlayImage, PositionX, PositionY, 3, 3, 0, 360);
}
void DrawLegend(MIL_ID MilOverlayImage, bool DrawGlobalEdge, bool DrawSubPositions)
{
MIL_DOUBLE TextPosX = 10.0;
MIL_DOUBLE TextPosY = 10.0;
MIL_DOUBLE StepY = 15.0;
MgraControl(M_DEFAULT, M_BACKGROUND_MODE, M_TRANSPARENT);
MgraColor(M_DEFAULT, BOX_COLOR);
MgraText(M_DEFAULT, MilOverlayImage, TextPosX, TextPosY, MIL_TEXT("Measurement Search Region - Blue"));
TextPosY += StepY;
if(DrawGlobalEdge)
{
MgraColor(M_DEFAULT, POSITION_COLOR);
MgraText(M_DEFAULT, MilOverlayImage, TextPosX, TextPosY, MIL_TEXT("Marker Position - Yellow"));
TextPosY += StepY;
MgraColor(M_DEFAULT, EDGES_COLOR);
MgraText(M_DEFAULT, MilOverlayImage, TextPosX, TextPosY, MIL_TEXT("Edges - Red"));
TextPosY += StepY;
}
if(DrawSubPositions)
{
MgraColor(M_DEFAULT, SUB_POSITIONS_COLOR);
MgraText(M_DEFAULT, MilOverlayImage, TextPosX, TextPosY, MIL_TEXT("Subedges Positions - Green"));
TextPosY += StepY;
}
}